diff --git a/README.md b/README.md index e70defe..8334339 100644 --- a/README.md +++ b/README.md @@ -11,13 +11,14 @@

-| **UPDATES** | -|------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| -| 2024.12.26 : Changes to the "energy funciton" backend. forcefield, forgive factors, etc should all be parts of the energy function now, and not parts of a rotamer library Checkout [Example_07](https://stolllab.github.io/chiLife/gallery/07-Custom_Energy_Function.html) | -| 2024.08.15 : chiLife 1.0 released! | -| 2024.08.15 : chiLife can now be used to create arbitrary peptides with natural and NCAAs. Checkout the `make_peptide` function. | -| 2024.08.15 : chiLife can make NCAA structures from smiles. Checkout `smiles2residue`. Note: Requires RDKit to be installed. | -| chiLife now supports arbitrary backbone attachments including DNA and RNA labels and more! | +| **UPDATES** | +|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| +| 2025.02.17 : Check out our new examples for trajectory analysis [Example_12](https://stolllab.github.io/chiLife/gallery/12-Analyzing_MD_Simulations.html) and using OpenMM for repacking [Example_13](https://stolllab.github.io/chiLife/gallery/07-Custom_Energy_Function.html). | +| 2024.12.26 : Changes to the "energy funciton" backend. forcefield, forgive factors, etc should all be parts of the energy function now, and not parts of a rotamer library Checkout [Example_07](https://stolllab.github.io/chiLife/gallery/13-OpenMM_Score_Function.html) | +| 2024.08.15 : chiLife 1.0 released! | +| 2024.08.15 : chiLife can now be used to create arbitrary peptides with natural and NCAAs. Checkout the `make_peptide` function. | +| 2024.08.15 : chiLife can make NCAA structures from smiles. Checkout `smiles2residue`. Note: Requires RDKit to be installed. | +| chiLife now supports arbitrary backbone attachments including DNA and RNA labels and more! | diff --git a/docs/source/examples.rst b/docs/source/examples.rst index 91d3393..60e7f17 100644 --- a/docs/source/examples.rst +++ b/docs/source/examples.rst @@ -16,3 +16,5 @@ Examples gallery/09-Bifunctional_Labels.nblink gallery/10-Nucleic_acid_labels.nblink gallery/11-Arbitrary_molecular_labels.nblink + gallery/12-Analyzing_MD_Simulations.nblink + gallery/13-OpenMM_Score_Function.nblink diff --git a/docs/source/gallery/12-Analyzing_MD_Simulations.nblink b/docs/source/gallery/12-Analyzing_MD_Simulations.nblink new file mode 100644 index 00000000..5b6b29f --- /dev/null +++ b/docs/source/gallery/12-Analyzing_MD_Simulations.nblink @@ -0,0 +1,3 @@ +{ +"path": "../../../examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb" +} diff --git a/docs/source/gallery/13-OpenMM_Score_Function.nblink b/docs/source/gallery/13-OpenMM_Score_Function.nblink new file mode 100644 index 00000000..964103d --- /dev/null +++ b/docs/source/gallery/13-OpenMM_Score_Function.nblink @@ -0,0 +1,3 @@ +{ +"path": "../../../examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb" +} \ No newline at end of file diff --git a/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.lock b/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.lock new file mode 100644 index 00000000..e69de29 diff --git a/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz b/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz new file mode 100644 index 00000000..d42e9cc Binary files /dev/null and b/examples/12 - Analyzing MD simulations/.AR1A.xtc_offsets.npz differ diff --git a/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb b/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb new file mode 100644 index 00000000..cc98480 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/12 - Analyzing MD Simulations.ipynb @@ -0,0 +1,139 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "e61814d1b09f68d6", + "metadata": {}, + "source": [ + "# Analyzing MD simulations" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "635b8ce8-68d6-49e1-83ed-eda68ebba1e9", + "metadata": { + "jupyter": { + "is_executing": true + } + }, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "C:\\Program Files\\Python312\\Lib\\site-packages\\tqdm\\auto.py:21: TqdmWarning: IProgress not found. Please update jupyter and ipywidgets. See https://ipywidgets.readthedocs.io/en/stable/user_install.html\n", + " from .autonotebook import tqdm as notebook_tqdm\n" + ] + } + ], + "source": [ + "import numpy as np\n", + "import matplotlib.pyplot as plt\n", + "import chilife as xl " + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "2531db84-2221-49a5-bd59-db9051c5bb79", + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "Rotamer ensemble with 237 members\n", + " Name: 2CYR_from_traj\n", + " Label: CYR\n", + " Site: 2\n", + " Dihedral definitions:\n", + " ['N', 'CA', 'CB', 'SG']\n", + " ['CA', 'CB', 'SG', 'S1L']\n", + " ['CB', 'SG', 'S1L', 'C1L']\n", + " ['SG', 'S1L', 'C1L', 'C1R']\n", + " ['S1L', 'C1L', 'C1R', 'C2R']\n", + " spin atoms:\n", + " ['NN' 'ON']\n" + ] + } + ], + "source": [ + "traj = xl.load_protein('AR1A.pdb', 'AR1A.xtc')\n", + "SL = xl.SpinLabel.from_trajectory(traj, 2, spin_atoms = ['NN', 'ON'], use_H=True)\n", + "print(SL)" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "48c7f84b-693e-4319-b074-2699ddee22ed", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, axs = plt.subplots(1, 5, figsize=(15,3), subplot_kw=dict(projection=\"polar\"))\n", + "\n", + "for i, ax in enumerate(axs):\n", + " ax.hist(np.deg2rad(SL.dihedrals[:,i]), bins = np.linspace(-np.pi, np.pi, 37))\n", + " ax.set_yticklabels([])\n", + "plt.tight_layout()\n", + "plt.show()\n" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "3c117cd4-724d-45bd-84b3-fb42f76f4151", + "metadata": {}, + "outputs": [], + "source": [ + "SL.to_rotlib('CYR', 'Cstom MTSL (R1) rotamer library', \"An MTSL/R1 rotamer library made with well tempered metadynamics\") " + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "c0175707-43fb-4d45-9f5e-1d0fbaf75a45", + "metadata": {}, + "outputs": [], + "source": [ + "prot = xl.fetch('1ubq')\n", + "\n", + "SL = xl.SpinLabel('CYR', 28, prot)\n", + "xl.save(prot, SL)\n" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": " Python 3.12", + "language": "python", + "name": "python3" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.12.3" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb b/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb new file mode 100644 index 00000000..f7e0a71 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/1ubq_A28CYR.pdb @@ -0,0 +1,1259 @@ +HEADER 1ubq +ATOM 1 N MET A 1 27.340 24.430 2.614 1.00 1.00 N +ATOM 2 CA MET A 1 26.266 25.413 2.842 1.00 1.00 C +ATOM 3 C MET A 1 26.913 26.639 3.531 1.00 1.00 C +ATOM 4 O MET A 1 27.886 26.463 4.263 1.00 1.00 O +ATOM 5 CB MET A 1 25.112 24.880 3.649 1.00 1.00 C +ATOM 6 CG MET A 1 25.353 24.860 5.134 1.00 1.00 C +ATOM 7 SD MET A 1 23.930 23.959 5.904 1.00 1.00 S +ATOM 8 CE MET A 1 24.447 23.984 7.620 1.00 1.00 C +ATOM 9 N GLN A 2 26.335 27.770 3.258 1.00 1.00 N +ATOM 10 CA GLN A 2 26.850 29.021 3.898 1.00 1.00 C +ATOM 11 C GLN A 2 26.100 29.253 5.202 1.00 1.00 C +ATOM 12 O GLN A 2 24.865 29.024 5.330 1.00 1.00 O +ATOM 13 CB GLN A 2 26.733 30.148 2.905 1.00 1.00 C +ATOM 14 CG GLN A 2 26.882 31.546 3.409 1.00 1.00 C +ATOM 15 CD GLN A 2 26.786 32.562 2.270 1.00 1.00 C +ATOM 16 OE1 GLN A 2 27.783 33.160 1.870 1.00 1.00 O +ATOM 17 NE2 GLN A 2 25.562 32.733 1.806 1.00 1.00 N +ATOM 18 N ILE A 3 26.849 29.656 6.217 1.00 1.00 N +ATOM 19 CA ILE A 3 26.235 30.058 7.497 1.00 1.00 C +ATOM 20 C ILE A 3 26.882 31.428 7.862 1.00 1.00 C +ATOM 21 O ILE A 3 27.906 31.711 7.264 1.00 1.00 O +ATOM 22 CB ILE A 3 26.344 29.050 8.645 1.00 1.00 C +ATOM 23 CG1 ILE A 3 27.810 28.748 8.999 1.00 1.00 C +ATOM 24 CG2 ILE A 3 25.491 27.771 8.287 1.00 1.00 C +ATOM 25 CD1 ILE A 3 27.967 28.087 10.417 1.00 1.00 C +ATOM 26 N PHE A 4 26.214 32.097 8.771 1.00 1.00 N +ATOM 27 CA PHE A 4 26.772 33.436 9.197 1.00 1.00 C +ATOM 28 C PHE A 4 27.151 33.362 10.650 1.00 1.00 C +ATOM 29 O PHE A 4 26.350 32.778 11.395 1.00 1.00 O +ATOM 30 CB PHE A 4 25.695 34.498 8.946 1.00 1.00 C +ATOM 31 CG PHE A 4 25.288 34.609 7.499 1.00 1.00 C +ATOM 32 CD1 PHE A 4 24.147 33.966 7.038 1.00 1.00 C +ATOM 33 CD2 PHE A 4 26.136 35.346 6.640 1.00 1.00 C +ATOM 34 CE1 PHE A 4 23.812 34.031 5.677 1.00 1.00 C +ATOM 35 CE2 PHE A 4 25.810 35.392 5.267 1.00 1.00 C +ATOM 36 CZ PHE A 4 24.620 34.778 4.853 1.00 1.00 C +ATOM 37 N VAL A 5 28.260 33.943 11.096 1.00 1.00 N +ATOM 38 CA VAL A 5 28.605 33.965 12.503 1.00 1.00 C +ATOM 39 C VAL A 5 28.638 35.461 12.900 1.00 1.00 C +ATOM 40 O VAL A 5 29.522 36.103 12.320 1.00 1.00 O +ATOM 41 CB VAL A 5 29.963 33.317 12.814 1.00 1.00 C +ATOM 42 CG1 VAL A 5 30.211 33.394 14.304 1.00 1.00 C +ATOM 43 CG2 VAL A 5 29.957 31.838 12.352 1.00 1.00 C +ATOM 44 N LYS A 6 27.751 35.867 13.740 1.00 1.00 N +ATOM 45 CA LYS A 6 27.691 37.315 14.143 1.00 1.00 C +ATOM 46 C LYS A 6 28.469 37.475 15.420 1.00 1.00 C +ATOM 47 O LYS A 6 28.213 36.753 16.411 1.00 1.00 O +ATOM 48 CB LYS A 6 26.219 37.684 14.307 1.00 1.00 C +ATOM 49 CG LYS A 6 25.884 39.139 14.615 1.00 1.00 C +ATOM 50 CD LYS A 6 24.348 39.296 14.642 1.00 1.00 C +ATOM 51 CE LYS A 6 23.865 40.723 14.749 1.00 1.00 C +ATOM 52 NZ LYS A 6 22.375 40.720 14.907 1.00 1.00 N +ATOM 53 N THR A 7 29.426 38.430 15.446 1.00 1.00 N +ATOM 54 CA THR A 7 30.225 38.643 16.662 1.00 1.00 C +ATOM 55 C THR A 7 29.664 39.839 17.434 1.00 1.00 C +ATOM 56 O THR A 7 28.850 40.565 16.859 1.00 1.00 O +ATOM 57 CB THR A 7 31.744 38.879 16.299 1.00 1.00 C +ATOM 58 OG1 THR A 7 31.737 40.257 15.824 1.00 1.00 O +ATOM 59 CG2 THR A 7 32.260 37.969 15.171 1.00 1.00 C +ATOM 60 N LEU A 8 30.132 40.069 18.642 1.00 1.00 N +ATOM 61 CA LEU A 8 29.607 41.180 19.467 1.00 1.00 C +ATOM 62 C LEU A 8 30.075 42.538 18.984 1.00 1.00 C +ATOM 63 O LEU A 8 29.586 43.570 19.483 1.00 1.00 O +ATOM 64 CB LEU A 8 29.919 40.890 20.938 1.00 1.00 C +ATOM 65 CG LEU A 8 29.183 39.722 21.581 1.00 1.00 C +ATOM 66 CD1 LEU A 8 29.308 39.750 23.095 1.00 1.00 C +ATOM 67 CD2 LEU A 8 27.700 39.721 21.228 1.00 1.00 C +ATOM 68 N THR A 9 30.991 42.571 17.998 1.00 1.00 N +ATOM 69 CA THR A 9 31.422 43.940 17.553 1.00 1.00 C +ATOM 70 C THR A 9 30.755 44.351 16.277 1.00 1.00 C +ATOM 71 O THR A 9 31.207 45.268 15.566 1.00 1.00 O +ATOM 72 CB THR A 9 32.979 43.918 17.445 1.00 1.00 C +ATOM 73 OG1 THR A 9 33.174 43.067 16.265 1.00 1.00 O +ATOM 74 CG2 THR A 9 33.657 43.319 18.672 1.00 1.00 C +ATOM 75 N GLY A 10 29.721 43.673 15.885 1.00 1.00 N +ATOM 76 CA GLY A 10 28.978 43.960 14.678 1.00 1.00 C +ATOM 77 C GLY A 10 29.604 43.507 13.393 1.00 1.00 C +ATOM 78 O GLY A 10 29.219 43.981 12.301 1.00 1.00 O +ATOM 79 N LYS A 11 30.563 42.623 13.495 1.00 1.00 N +ATOM 80 CA LYS A 11 31.191 42.012 12.331 1.00 1.00 C +ATOM 81 C LYS A 11 30.459 40.666 12.130 1.00 1.00 C +ATOM 82 O LYS A 11 30.253 39.991 13.133 1.00 1.00 O +ATOM 83 CB LYS A 11 32.672 41.717 12.505 1.00 1.00 C +ATOM 84 CG LYS A 11 33.280 41.086 11.227 1.00 1.00 C +ATOM 85 CD LYS A 11 34.762 40.799 11.470 1.00 1.00 C +ATOM 86 CE LYS A 11 35.614 40.847 10.240 1.00 1.00 C +ATOM 87 NZ LYS A 11 35.100 40.073 9.101 1.00 1.00 N +ATOM 88 N THR A 12 30.163 40.338 10.886 1.00 1.00 N +ATOM 89 CA THR A 12 29.542 39.020 10.653 1.00 1.00 C +ATOM 90 C THR A 12 30.494 38.261 9.729 1.00 1.00 C +ATOM 91 O THR A 12 30.849 38.850 8.706 1.00 1.00 O +ATOM 92 CB THR A 12 28.113 39.049 10.015 1.00 1.00 C +ATOM 93 OG1 THR A 12 27.280 39.722 10.996 1.00 1.00 O +ATOM 94 CG2 THR A 12 27.588 37.635 9.715 1.00 1.00 C +ATOM 95 N ILE A 13 30.795 37.015 10.095 1.00 1.00 N +ATOM 96 CA ILE A 13 31.720 36.289 9.176 1.00 1.00 C +ATOM 97 C ILE A 13 30.955 35.211 8.459 1.00 1.00 C +ATOM 98 O ILE A 13 30.025 34.618 9.040 1.00 1.00 O +ATOM 99 CB ILE A 13 32.995 35.883 9.934 1.00 1.00 C +ATOM 100 CG1 ILE A 13 33.306 34.381 9.840 1.00 1.00 C +ATOM 101 CG2 ILE A 13 33.109 36.381 11.435 1.00 1.00 C +ATOM 102 CD1 ILE A 13 34.535 34.028 10.720 1.00 1.00 C +ATOM 103 N THR A 14 31.244 34.986 7.197 1.00 1.00 N +ATOM 104 CA THR A 14 30.505 33.884 6.512 1.00 1.00 C +ATOM 105 C THR A 14 31.409 32.680 6.446 1.00 1.00 C +ATOM 106 O THR A 14 32.619 32.812 6.125 1.00 1.00 O +ATOM 107 CB THR A 14 30.091 34.393 5.078 1.00 1.00 C +ATOM 108 OG1 THR A 14 31.440 34.513 4.487 1.00 1.00 O +ATOM 109 CG2 THR A 14 29.420 35.756 5.119 1.00 1.00 C +ATOM 110 N LEU A 15 30.884 31.485 6.666 1.00 1.00 N +ATOM 111 CA LEU A 15 31.677 30.275 6.639 1.00 1.00 C +ATOM 112 C LEU A 15 31.022 29.288 5.665 1.00 1.00 C +ATOM 113 O LEU A 15 29.809 29.395 5.545 1.00 1.00 O +ATOM 114 CB LEU A 15 31.562 29.686 8.045 1.00 1.00 C +ATOM 115 CG LEU A 15 32.631 29.444 9.060 1.00 1.00 C +ATOM 116 CD1 LEU A 15 33.814 30.390 9.030 1.00 1.00 C +ATOM 117 CD2 LEU A 15 31.945 29.449 10.436 1.00 1.00 C +ATOM 118 N GLU A 16 31.834 28.412 5.125 1.00 1.00 N +ATOM 119 CA GLU A 16 31.220 27.341 4.275 1.00 1.00 C +ATOM 120 C GLU A 16 31.440 26.079 5.080 1.00 1.00 C +ATOM 121 O GLU A 16 32.576 25.802 5.461 1.00 1.00 O +ATOM 122 CB GLU A 16 31.827 27.262 2.894 1.00 1.00 C +ATOM 123 CG GLU A 16 31.363 28.410 1.962 1.00 1.00 C +ATOM 124 CD GLU A 16 31.671 28.291 0.498 1.00 1.00 C +ATOM 125 OE1 GLU A 16 30.869 28.621 -0.366 1.00 1.00 O +ATOM 126 OE2 GLU A 16 32.835 27.861 0.278 1.00 1.00 O +ATOM 127 N VAL A 17 30.310 25.458 5.384 1.00 1.00 N +ATOM 128 CA VAL A 17 30.288 24.245 6.193 1.00 1.00 C +ATOM 129 C VAL A 17 29.279 23.227 5.641 1.00 1.00 C +ATOM 130 O VAL A 17 28.478 23.522 4.725 1.00 1.00 O +ATOM 131 CB VAL A 17 29.903 24.590 7.665 1.00 1.00 C +ATOM 132 CG1 VAL A 17 30.862 25.496 8.389 1.00 1.00 C +ATOM 133 CG2 VAL A 17 28.476 25.135 7.705 1.00 1.00 C +ATOM 134 N GLU A 18 29.380 22.057 6.232 1.00 1.00 N +ATOM 135 CA GLU A 18 28.468 20.940 5.980 1.00 1.00 C +ATOM 136 C GLU A 18 27.819 20.609 7.316 1.00 1.00 C +ATOM 137 O GLU A 18 28.449 20.674 8.360 1.00 1.00 O +ATOM 138 CB GLU A 18 29.213 19.697 5.506 1.00 1.00 C +ATOM 139 CG GLU A 18 29.728 19.755 4.060 1.00 1.00 C +ATOM 140 CD GLU A 18 28.754 20.061 2.978 1.00 1.00 C +ATOM 141 OE1 GLU A 18 27.546 19.992 2.985 1.00 1.00 O +ATOM 142 OE2 GLU A 18 29.336 20.423 1.904 1.00 1.00 O +ATOM 143 N PRO A 19 26.559 20.220 7.288 1.00 1.00 N +ATOM 144 CA PRO A 19 25.829 19.825 8.494 1.00 1.00 C +ATOM 145 C PRO A 19 26.541 18.732 9.251 1.00 1.00 C +ATOM 146 O PRO A 19 26.333 18.536 10.457 1.00 1.00 O +ATOM 147 CB PRO A 19 24.469 19.332 7.952 1.00 1.00 C +ATOM 148 CG PRO A 19 24.299 20.134 6.704 1.00 1.00 C +ATOM 149 CD PRO A 19 25.714 20.108 6.073 1.00 1.00 C +ATOM 150 N SER A 20 27.361 17.959 8.559 1.00 1.00 N +ATOM 151 CA SER A 20 28.054 16.835 9.210 1.00 1.00 C +ATOM 152 C SER A 20 29.258 17.318 9.984 1.00 1.00 C +ATOM 153 O SER A 20 29.930 16.477 10.606 1.00 1.00 O +ATOM 154 CB SER A 20 28.523 15.820 8.182 1.00 1.00 C +ATOM 155 OG SER A 20 28.946 16.445 6.967 1.00 1.00 O +ATOM 156 N ASP A 21 29.599 18.599 9.828 1.00 1.00 N +ATOM 157 CA ASP A 21 30.796 19.083 10.566 1.00 1.00 C +ATOM 158 C ASP A 21 30.491 19.162 12.040 1.00 1.00 C +ATOM 159 O ASP A 21 29.367 19.523 12.441 1.00 1.00 O +ATOM 160 CB ASP A 21 31.155 20.515 10.048 1.00 1.00 C +ATOM 161 CG ASP A 21 31.923 20.436 8.755 1.00 1.00 C +ATOM 162 OD1 ASP A 21 32.493 19.374 8.456 1.00 1.00 O +ATOM 163 OD2 ASP A 21 31.838 21.402 7.968 1.00 1.00 O +ATOM 164 N THR A 22 31.510 18.936 12.852 1.00 1.00 N +ATOM 165 CA THR A 22 31.398 19.064 14.286 1.00 1.00 C +ATOM 166 C THR A 22 31.593 20.553 14.655 1.00 1.00 C +ATOM 167 O THR A 22 32.159 21.311 13.861 1.00 1.00 O +ATOM 168 CB THR A 22 32.492 18.193 14.995 1.00 1.00 C +ATOM 169 OG1 THR A 22 33.778 18.739 14.516 1.00 1.00 O +ATOM 170 CG2 THR A 22 32.352 16.700 14.630 1.00 1.00 C +ATOM 171 N ILE A 23 31.113 20.863 15.860 1.00 1.00 N +ATOM 172 CA ILE A 23 31.288 22.201 16.417 1.00 1.00 C +ATOM 173 C ILE A 23 32.776 22.519 16.577 1.00 1.00 C +ATOM 174 O ILE A 23 33.233 23.659 16.384 1.00 1.00 O +ATOM 175 CB ILE A 23 30.520 22.300 17.764 1.00 1.00 C +ATOM 176 CG1 ILE A 23 29.006 22.043 17.442 1.00 1.00 C +ATOM 177 CG2 ILE A 23 30.832 23.699 18.358 1.00 1.00 C +ATOM 178 CD1 ILE A 23 28.407 22.948 16.366 1.00 1.00 C +ATOM 179 N GLU A 24 33.548 21.526 16.950 1.00 1.00 N +ATOM 180 CA GLU A 24 35.031 21.722 17.069 1.00 1.00 C +ATOM 181 C GLU A 24 35.615 22.190 15.759 1.00 1.00 C +ATOM 182 O GLU A 24 36.532 23.046 15.724 1.00 1.00 O +ATOM 183 CB GLU A 24 35.667 20.383 17.447 1.00 1.00 C +ATOM 184 CG GLU A 24 37.128 20.293 17.872 1.00 1.00 C +ATOM 185 CD GLU A 24 37.561 18.851 18.082 1.00 1.00 C +ATOM 186 OE1 GLU A 24 37.758 18.024 17.195 1.00 1.00 O +ATOM 187 OE2 GLU A 24 37.628 18.599 19.313 1.00 1.00 O +ATOM 188 N ASN A 25 35.139 21.624 14.662 1.00 1.00 N +ATOM 189 CA ASN A 25 35.590 21.945 13.302 1.00 1.00 C +ATOM 190 C ASN A 25 35.238 23.382 12.920 1.00 1.00 C +ATOM 191 O ASN A 25 36.066 24.109 12.333 1.00 1.00 O +ATOM 192 CB ASN A 25 35.064 20.957 12.255 1.00 1.00 C +ATOM 193 CG ASN A 25 35.541 21.418 10.871 1.00 1.00 C +ATOM 194 OD1 ASN A 25 36.772 21.623 10.676 1.00 1.00 O +ATOM 195 ND2 ASN A 25 34.628 21.595 9.920 1.00 1.00 N +ATOM 196 N VAL A 26 34.007 23.745 13.250 1.00 1.00 N +ATOM 197 CA VAL A 26 33.533 25.097 12.978 1.00 1.00 C +ATOM 198 C VAL A 26 34.441 26.099 13.684 1.00 1.00 C +ATOM 199 O VAL A 26 34.883 27.090 13.093 1.00 1.00 O +ATOM 200 CB VAL A 26 32.060 25.257 13.364 1.00 1.00 C +ATOM 201 CG1 VAL A 26 31.684 26.749 13.342 1.00 1.00 C +ATOM 202 CG2 VAL A 26 31.152 24.421 12.477 1.00 1.00 C +ATOM 203 N LYS A 27 34.734 25.822 14.949 1.00 1.00 N +ATOM 204 CA LYS A 27 35.596 26.715 15.736 1.00 1.00 C +ATOM 205 C LYS A 27 36.975 26.826 15.107 1.00 1.00 C +ATOM 206 O LYS A 27 37.579 27.926 15.159 1.00 1.00 O +ATOM 207 CB LYS A 27 35.715 26.203 17.172 1.00 1.00 C +ATOM 208 CG LYS A 27 34.343 26.445 17.898 1.00 1.00 C +ATOM 209 CD LYS A 27 34.509 26.077 19.360 1.00 1.00 C +ATOM 210 CE LYS A 27 33.206 26.311 20.122 1.00 1.00 C +ATOM 211 NZ LYS A 27 33.455 25.910 21.546 1.00 1.00 N +ATOM 212 N ALA A 28 37.499 25.743 14.571 1.00 1.00 N +ATOM 213 CA ALA A 28 38.794 25.761 13.880 1.00 1.00 C +ATOM 214 C ALA A 28 38.728 26.591 12.611 1.00 1.00 C +ATOM 215 O ALA A 28 39.704 27.346 12.277 1.00 1.00 O +ATOM 216 CB ALA A 28 39.285 24.336 13.566 1.00 1.00 C +ATOM 217 N LYS A 29 37.633 26.543 11.867 1.00 1.00 N +ATOM 218 CA LYS A 29 37.471 27.391 10.668 1.00 1.00 C +ATOM 219 C LYS A 29 37.441 28.882 11.052 1.00 1.00 C +ATOM 220 O LYS A 29 38.020 29.772 10.382 1.00 1.00 O +ATOM 221 CB LYS A 29 36.193 27.058 9.911 1.00 1.00 C +ATOM 222 CG LYS A 29 36.153 25.620 9.409 1.00 1.00 C +ATOM 223 CD LYS A 29 34.758 25.280 8.900 1.00 1.00 C +ATOM 224 CE LYS A 29 34.793 24.264 7.767 1.00 1.00 C +ATOM 225 NZ LYS A 29 34.914 24.944 6.441 1.00 1.00 N +ATOM 226 N ILE A 30 36.811 29.170 12.192 1.00 1.00 N +ATOM 227 CA ILE A 30 36.731 30.570 12.645 1.00 1.00 C +ATOM 228 C ILE A 30 38.148 30.981 13.069 1.00 1.00 C +ATOM 229 O ILE A 30 38.544 32.150 12.856 1.00 1.00 O +ATOM 230 CB ILE A 30 35.708 30.776 13.806 1.00 1.00 C +ATOM 231 CG1 ILE A 30 34.228 30.630 13.319 1.00 1.00 C +ATOM 232 CG2 ILE A 30 35.874 32.138 14.512 1.00 1.00 C +ATOM 233 CD1 ILE A 30 33.284 30.504 14.552 1.00 1.00 C +ATOM 234 N GLN A 31 38.883 30.110 13.713 1.00 1.00 N +ATOM 235 CA GLN A 31 40.269 30.508 14.115 1.00 1.00 C +ATOM 236 C GLN A 31 41.092 30.808 12.851 1.00 1.00 C +ATOM 237 O GLN A 31 41.828 31.808 12.681 1.00 1.00 O +ATOM 238 CB GLN A 31 40.996 29.399 14.865 1.00 1.00 C +ATOM 239 CG GLN A 31 42.445 29.848 15.182 1.00 1.00 C +ATOM 240 CD GLN A 31 43.090 28.828 16.095 1.00 1.00 C +ATOM 241 OE1 GLN A 31 42.770 27.655 15.906 1.00 1.00 O +ATOM 242 NE2 GLN A 31 43.898 29.252 17.050 1.00 1.00 N +ATOM 243 N ASP A 32 41.001 29.878 11.931 1.00 1.00 N +ATOM 244 CA ASP A 32 41.718 30.022 10.643 1.00 1.00 C +ATOM 245 C ASP A 32 41.399 31.338 9.967 1.00 1.00 C +ATOM 246 O ASP A 32 42.260 32.036 9.381 1.00 1.00 O +ATOM 247 CB ASP A 32 41.398 28.780 9.810 1.00 1.00 C +ATOM 248 CG ASP A 32 42.626 28.557 8.928 1.00 1.00 C +ATOM 249 OD1 ASP A 32 43.666 28.262 9.539 1.00 1.00 O +ATOM 250 OD2 ASP A 32 42.430 28.812 7.728 1.00 1.00 O +ATOM 251 N LYS A 33 40.117 31.750 9.988 1.00 1.00 N +ATOM 252 CA LYS A 33 39.808 32.994 9.233 1.00 1.00 C +ATOM 253 C LYS A 33 39.837 34.271 9.995 1.00 1.00 C +ATOM 254 O LYS A 33 40.164 35.323 9.345 1.00 1.00 O +ATOM 255 CB LYS A 33 38.615 32.801 8.320 1.00 1.00 C +ATOM 256 CG LYS A 33 37.220 32.822 8.827 1.00 1.00 C +ATOM 257 CD LYS A 33 36.351 33.613 7.838 1.00 1.00 C +ATOM 258 CE LYS A 33 36.322 32.944 6.477 1.00 1.00 C +ATOM 259 NZ LYS A 33 35.768 33.945 5.489 1.00 1.00 N +ATOM 260 N GLU A 34 39.655 34.335 11.285 1.00 1.00 N +ATOM 261 CA GLU A 34 39.676 35.547 12.072 1.00 1.00 C +ATOM 262 C GLU A 34 40.675 35.527 13.200 1.00 1.00 C +ATOM 263 O GLU A 34 40.814 36.528 13.911 1.00 1.00 O +ATOM 264 CB GLU A 34 38.290 35.814 12.698 1.00 1.00 C +ATOM 265 CG GLU A 34 37.156 35.985 11.688 1.00 1.00 C +ATOM 266 CD GLU A 34 37.192 37.361 11.033 1.00 1.00 C +ATOM 267 OE1 GLU A 34 37.519 38.360 11.645 1.00 1.00 O +ATOM 268 OE2 GLU A 34 36.861 37.320 9.822 1.00 1.00 O +ATOM 269 N GLY A 35 41.317 34.393 13.432 1.00 1.00 N +ATOM 270 CA GLY A 35 42.345 34.269 14.431 1.00 1.00 C +ATOM 271 C GLY A 35 41.949 34.076 15.842 1.00 1.00 C +ATOM 272 O GLY A 35 42.829 34.000 16.739 1.00 1.00 O +ATOM 273 N ILE A 36 40.642 33.916 16.112 1.00 1.00 N +ATOM 274 CA ILE A 36 40.226 33.716 17.509 1.00 1.00 C +ATOM 275 C ILE A 36 40.449 32.278 17.945 1.00 1.00 C +ATOM 276 O ILE A 36 39.936 31.336 17.315 1.00 1.00 O +ATOM 277 CB ILE A 36 38.693 34.106 17.595 1.00 1.00 C +ATOM 278 CG1 ILE A 36 38.471 35.546 17.045 1.00 1.00 C +ATOM 279 CG2 ILE A 36 38.146 33.932 19.027 1.00 1.00 C +ATOM 280 CD1 ILE A 36 36.958 35.746 16.680 1.00 1.00 C +ATOM 281 N PRO A 37 41.189 32.085 19.031 1.00 1.00 N +ATOM 282 CA PRO A 37 41.461 30.751 19.594 1.00 1.00 C +ATOM 283 C PRO A 37 40.168 30.026 19.918 1.00 1.00 C +ATOM 284 O PRO A 37 39.264 30.662 20.521 1.00 1.00 O +ATOM 285 CB PRO A 37 42.195 31.142 20.913 1.00 1.00 C +ATOM 286 CG PRO A 37 42.904 32.414 20.553 1.00 1.00 C +ATOM 287 CD PRO A 37 41.822 33.188 19.813 1.00 1.00 C +ATOM 288 N PRO A 38 40.059 28.758 19.607 1.00 1.00 N +ATOM 289 CA PRO A 38 38.817 28.020 19.889 1.00 1.00 C +ATOM 290 C PRO A 38 38.421 28.048 21.341 1.00 1.00 C +ATOM 291 O PRO A 38 37.213 28.036 21.704 1.00 1.00 O +ATOM 292 CB PRO A 38 39.090 26.629 19.325 1.00 1.00 C +ATOM 293 CG PRO A 38 40.082 26.904 18.198 1.00 1.00 C +ATOM 294 CD PRO A 38 41.035 27.909 18.879 1.00 1.00 C +ATOM 295 N ASP A 39 39.374 28.090 22.240 1.00 1.00 N +ATOM 296 CA ASP A 39 39.063 28.063 23.695 1.00 1.00 C +ATOM 297 C ASP A 39 38.365 29.335 24.159 1.00 1.00 C +ATOM 298 O ASP A 39 37.684 29.390 25.221 1.00 1.00 O +ATOM 299 CB ASP A 39 40.340 27.692 24.468 1.00 1.00 C +ATOM 300 CG ASP A 39 40.559 28.585 25.675 1.00 1.00 C +ATOM 301 OD1 ASP A 39 40.716 29.809 25.456 1.00 1.00 O +ATOM 302 OD2 ASP A 39 40.549 28.090 26.840 1.00 1.00 O +ATOM 303 N GLN A 40 38.419 30.373 23.341 1.00 1.00 N +ATOM 304 CA GLN A 40 37.738 31.637 23.712 1.00 1.00 C +ATOM 305 C GLN A 40 36.334 31.742 23.087 1.00 1.00 C +ATOM 306 O GLN A 40 35.574 32.618 23.483 1.00 1.00 O +ATOM 307 CB GLN A 40 38.528 32.854 23.182 1.00 1.00 C +ATOM 308 CG GLN A 40 39.919 32.854 23.840 1.00 1.00 C +ATOM 309 CD GLN A 40 40.760 34.036 23.394 1.00 1.00 C +ATOM 310 OE1 GLN A 40 41.975 34.008 23.624 1.00 1.00 O +ATOM 311 NE2 GLN A 40 40.140 35.007 22.775 1.00 1.00 N +ATOM 312 N GLN A 41 36.000 30.860 22.172 1.00 1.00 N +ATOM 313 CA GLN A 41 34.738 30.875 21.473 1.00 1.00 C +ATOM 314 C GLN A 41 33.589 30.189 22.181 1.00 1.00 C +ATOM 315 O GLN A 41 33.580 29.009 22.499 1.00 1.00 O +ATOM 316 CB GLN A 41 34.876 30.237 20.066 1.00 1.00 C +ATOM 317 CG GLN A 41 36.012 30.860 19.221 1.00 1.00 C +ATOM 318 CD GLN A 41 36.083 30.194 17.875 1.00 1.00 C +ATOM 319 OE1 GLN A 41 35.048 29.702 17.393 1.00 1.00 O +ATOM 320 NE2 GLN A 41 37.228 30.126 17.233 1.00 1.00 N +ATOM 321 N ARG A 42 32.478 30.917 22.269 1.00 1.00 N +ATOM 322 CA ARG A 42 31.200 30.329 22.780 1.00 1.00 C +ATOM 323 C ARG A 42 30.210 30.509 21.650 1.00 1.00 C +ATOM 324 O ARG A 42 29.978 31.726 21.269 1.00 1.00 O +ATOM 325 CB ARG A 42 30.847 30.931 24.118 1.00 1.00 C +ATOM 326 CG ARG A 42 29.412 30.796 24.598 1.00 1.00 C +ATOM 327 CD ARG A 42 29.271 31.314 26.016 1.00 1.00 C +ATOM 328 NE ARG A 42 27.875 31.317 26.443 1.00 1.00 N +ATOM 329 CZ ARG A 42 27.132 32.423 26.574 1.00 1.00 C +ATOM 330 NH1 ARG A 42 27.630 33.656 26.461 1.00 1.00 N +ATOM 331 NH2 ARG A 42 25.810 32.299 26.732 1.00 1.00 N +ATOM 332 N LEU A 43 29.694 29.436 21.054 1.00 1.00 N +ATOM 333 CA LEU A 43 28.762 29.573 19.906 1.00 1.00 C +ATOM 334 C LEU A 43 27.331 29.317 20.364 1.00 1.00 C +ATOM 335 O LEU A 43 27.101 28.346 21.097 1.00 1.00 O +ATOM 336 CB LEU A 43 29.151 28.655 18.755 1.00 1.00 C +ATOM 337 CG LEU A 43 30.416 28.912 17.980 1.00 1.00 C +ATOM 338 CD1 LEU A 43 30.738 27.693 17.122 1.00 1.00 C +ATOM 339 CD2 LEU A 43 30.205 30.168 17.129 1.00 1.00 C +ATOM 340 N ILE A 44 26.436 30.232 20.004 1.00 1.00 N +ATOM 341 CA ILE A 44 25.034 30.170 20.401 1.00 1.00 C +ATOM 342 C ILE A 44 24.101 30.149 19.196 1.00 1.00 C +ATOM 343 O ILE A 44 24.196 30.948 18.287 1.00 1.00 O +ATOM 344 CB ILE A 44 24.639 31.426 21.286 1.00 1.00 C +ATOM 345 CG1 ILE A 44 25.646 31.670 22.421 1.00 1.00 C +ATOM 346 CG2 ILE A 44 23.181 31.309 21.824 1.00 1.00 C +ATOM 347 CD1 ILE A 44 25.778 30.436 23.356 1.00 1.00 C +ATOM 348 N PHE A 45 23.141 29.187 19.241 1.00 1.00 N +ATOM 349 CA PHE A 45 22.126 29.062 18.183 1.00 1.00 C +ATOM 350 C PHE A 45 20.835 28.629 18.904 1.00 1.00 C +ATOM 351 O PHE A 45 20.821 27.734 19.749 1.00 1.00 O +ATOM 352 CB PHE A 45 22.494 28.057 17.109 1.00 1.00 C +ATOM 353 CG PHE A 45 21.447 27.869 16.026 1.00 1.00 C +ATOM 354 CD1 PHE A 45 21.325 28.813 15.005 1.00 1.00 C +ATOM 355 CD2 PHE A 45 20.638 26.735 16.053 1.00 1.00 C +ATOM 356 CE1 PHE A 45 20.369 28.648 14.001 1.00 1.00 C +ATOM 357 CE2 PHE A 45 19.677 26.539 15.051 1.00 1.00 C +ATOM 358 CZ PHE A 45 19.593 27.465 14.021 1.00 1.00 C +ATOM 359 N ALA A 46 19.810 29.378 18.578 1.00 1.00 N +ATOM 360 CA ALA A 46 18.443 29.143 19.083 1.00 1.00 C +ATOM 361 C ALA A 46 18.453 28.941 20.591 1.00 1.00 C +ATOM 362 O ALA A 46 17.860 27.994 21.128 1.00 1.00 O +ATOM 363 CB ALA A 46 17.864 27.977 18.346 1.00 1.00 C +ATOM 364 N GLY A 47 19.172 29.808 21.243 1.00 1.00 N +ATOM 365 CA GLY A 47 19.399 29.894 22.655 1.00 1.00 C +ATOM 366 C GLY A 47 20.083 28.729 23.321 1.00 1.00 C +ATOM 367 O GLY A 47 19.991 28.584 24.561 1.00 1.00 O +ATOM 368 N LYS A 48 20.801 27.931 22.578 1.00 1.00 N +ATOM 369 CA LYS A 48 21.550 26.796 23.133 1.00 1.00 C +ATOM 370 C LYS A 48 23.046 27.087 22.913 1.00 1.00 C +ATOM 371 O LYS A 48 23.383 27.627 21.870 1.00 1.00 O +ATOM 372 CB LYS A 48 21.242 25.519 22.391 1.00 1.00 C +ATOM 373 CG LYS A 48 19.762 25.077 22.455 1.00 1.00 C +ATOM 374 CD LYS A 48 19.634 23.885 21.531 1.00 1.00 C +ATOM 375 CE LYS A 48 18.791 24.221 20.313 1.00 1.00 C +ATOM 376 NZ LYS A 48 17.440 24.655 20.827 1.00 1.00 N +ATOM 377 N GLN A 49 23.880 26.727 23.851 1.00 1.00 N +ATOM 378 CA GLN A 49 25.349 26.872 23.643 1.00 1.00 C +ATOM 379 C GLN A 49 25.743 25.586 22.922 1.00 1.00 C +ATOM 380 O GLN A 49 25.325 24.489 23.378 1.00 1.00 O +ATOM 381 CB GLN A 49 26.070 27.025 24.960 1.00 1.00 C +ATOM 382 CG GLN A 49 27.553 27.356 24.695 1.00 1.00 C +ATOM 383 CD GLN A 49 28.262 27.576 26.020 1.00 1.00 C +ATOM 384 OE1 GLN A 49 29.189 26.840 26.335 1.00 1.00 O +ATOM 385 NE2 GLN A 49 27.777 28.585 26.739 1.00 1.00 N +ATOM 386 N LEU A 50 26.465 25.689 21.833 1.00 1.00 N +ATOM 387 CA LEU A 50 26.826 24.521 21.012 1.00 1.00 C +ATOM 388 C LEU A 50 27.994 23.781 21.643 1.00 1.00 C +ATOM 389 O LEU A 50 28.904 24.444 22.098 1.00 1.00 O +ATOM 390 CB LEU A 50 27.043 24.992 19.571 1.00 1.00 C +ATOM 391 CG LEU A 50 25.931 25.844 18.959 1.00 1.00 C +ATOM 392 CD1 LEU A 50 26.203 26.083 17.471 1.00 1.00 C +ATOM 393 CD2 LEU A 50 24.577 25.190 19.079 1.00 1.00 C +ATOM 394 N GLU A 51 27.942 22.448 21.648 1.00 1.00 N +ATOM 395 CA GLU A 51 29.015 21.657 22.288 1.00 1.00 C +ATOM 396 C GLU A 51 29.942 21.106 21.240 1.00 1.00 C +ATOM 397 O GLU A 51 29.470 20.677 20.190 1.00 1.00 O +ATOM 398 CB GLU A 51 28.348 20.540 23.066 1.00 1.00 C +ATOM 399 CG GLU A 51 29.247 19.456 23.705 1.00 1.00 C +ATOM 400 CD GLU A 51 28.722 19.047 25.066 1.00 1.00 C +ATOM 401 OE1 GLU A 51 29.139 18.132 25.746 1.00 1.00 O +ATOM 402 OE2 GLU A 51 27.777 19.842 25.367 1.00 1.00 O +ATOM 403 N ASP A 52 31.233 21.090 21.459 1.00 1.00 N +ATOM 404 CA ASP A 52 32.262 20.670 20.514 1.00 1.00 C +ATOM 405 C ASP A 52 32.128 19.364 19.750 1.00 1.00 C +ATOM 406 O ASP A 52 32.546 19.317 18.558 1.00 1.00 O +ATOM 407 CB ASP A 52 33.638 20.716 21.242 1.00 1.00 C +ATOM 408 CG ASP A 52 34.174 22.129 21.354 1.00 1.00 C +ATOM 409 OD1 ASP A 52 35.252 22.322 21.958 1.00 1.00 O +ATOM 410 OD2 ASP A 52 33.544 23.086 20.883 1.00 1.00 O +ATOM 411 N GLY A 53 31.697 18.311 20.406 1.00 1.00 N +ATOM 412 CA GLY A 53 31.568 16.962 19.825 1.00 1.00 C +ATOM 413 C GLY A 53 30.320 16.698 19.051 1.00 1.00 C +ATOM 414 O GLY A 53 30.198 15.657 18.366 1.00 1.00 O +ATOM 415 N ARG A 54 29.340 17.594 19.076 1.00 1.00 N +ATOM 416 CA ARG A 54 28.108 17.439 18.276 1.00 1.00 C +ATOM 417 C ARG A 54 28.375 17.999 16.887 1.00 1.00 C +ATOM 418 O ARG A 54 29.326 18.786 16.690 1.00 1.00 O +ATOM 419 CB ARG A 54 26.926 18.191 18.892 1.00 1.00 C +ATOM 420 CG ARG A 54 26.621 17.799 20.352 1.00 1.00 C +ATOM 421 CD ARG A 54 26.010 16.370 20.280 1.00 1.00 C +ATOM 422 NE ARG A 54 26.975 15.521 20.942 1.00 1.00 N +ATOM 423 CZ ARG A 54 27.603 14.423 20.655 1.00 1.00 C +ATOM 424 NH1 ARG A 54 27.479 13.733 19.537 1.00 1.00 N +ATOM 425 NH2 ARG A 54 28.519 13.967 21.550 1.00 1.00 N +ATOM 426 N THR A 55 27.510 17.689 15.954 1.00 1.00 N +ATOM 427 CA THR A 55 27.574 18.192 14.563 1.00 1.00 C +ATOM 428 C THR A 55 26.482 19.280 14.432 1.00 1.00 C +ATOM 429 O THR A 55 25.609 19.388 15.287 1.00 1.00 O +ATOM 430 CB THR A 55 27.299 17.055 13.533 1.00 1.00 C +ATOM 431 OG1 THR A 55 25.925 16.611 13.913 1.00 1.00 O +ATOM 432 CG2 THR A 55 28.236 15.864 13.558 1.00 1.00 C +ATOM 433 N LEU A 56 26.585 20.063 13.378 1.00 1.00 N +ATOM 434 CA LEU A 56 25.594 21.109 13.072 1.00 1.00 C +ATOM 435 C LEU A 56 24.241 20.436 12.857 1.00 1.00 C +ATOM 436 O LEU A 56 23.264 20.951 13.329 1.00 1.00 O +ATOM 437 CB LEU A 56 26.084 21.888 11.833 1.00 1.00 C +ATOM 438 CG LEU A 56 27.426 22.616 11.902 1.00 1.00 C +ATOM 439 CD1 LEU A 56 27.718 23.341 10.578 1.00 1.00 C +ATOM 440 CD2 LEU A 56 27.380 23.721 12.955 1.00 1.00 C +ATOM 441 N SER A 57 24.240 19.233 12.246 1.00 1.00 N +ATOM 442 CA SER A 57 22.924 18.583 12.025 1.00 1.00 C +ATOM 443 C SER A 57 22.229 18.244 13.325 1.00 1.00 C +ATOM 444 O SER A 57 20.963 18.253 13.395 1.00 1.00 O +ATOM 445 CB SER A 57 23.059 17.326 11.154 1.00 1.00 C +ATOM 446 OG SER A 57 23.914 16.395 11.755 1.00 1.00 O +ATOM 447 N ASP A 58 22.997 17.978 14.366 1.00 1.00 N +ATOM 448 CA ASP A 58 22.418 17.638 15.693 1.00 1.00 C +ATOM 449 C ASP A 58 21.460 18.737 16.163 1.00 1.00 C +ATOM 450 O ASP A 58 20.497 18.506 16.900 1.00 1.00 O +ATOM 451 CB ASP A 58 23.461 17.331 16.741 1.00 1.00 C +ATOM 452 CG ASP A 58 24.184 16.016 16.619 1.00 1.00 C +ATOM 453 OD1 ASP A 58 25.303 15.894 17.152 1.00 1.00 O +ATOM 454 OD2 ASP A 58 23.572 15.107 15.975 1.00 1.00 O +ATOM 455 N TYR A 59 21.846 19.954 15.905 1.00 1.00 N +ATOM 456 CA TYR A 59 21.079 21.149 16.251 1.00 1.00 C +ATOM 457 C TYR A 59 20.142 21.590 15.149 1.00 1.00 C +ATOM 458 O TYR A 59 19.499 22.645 15.321 1.00 1.00 O +ATOM 459 CB TYR A 59 22.085 22.254 16.581 1.00 1.00 C +ATOM 460 CG TYR A 59 22.945 21.951 17.785 1.00 1.00 C +ATOM 461 CD1 TYR A 59 24.272 21.544 17.644 1.00 1.00 C +ATOM 462 CD2 TYR A 59 22.437 22.157 19.065 1.00 1.00 C +ATOM 463 CE1 TYR A 59 25.052 21.285 18.776 1.00 1.00 C +ATOM 464 CE2 TYR A 59 23.204 21.907 20.192 1.00 1.00 C +ATOM 465 CZ TYR A 59 24.517 21.470 20.030 1.00 1.00 C +ATOM 466 OH TYR A 59 25.248 21.302 21.191 1.00 1.00 O +ATOM 467 N ASN A 60 19.993 20.884 14.049 1.00 1.00 N +ATOM 468 CA ASN A 60 19.065 21.352 12.999 1.00 1.00 C +ATOM 469 C ASN A 60 19.442 22.745 12.510 1.00 1.00 C +ATOM 470 O ASN A 60 18.571 23.610 12.289 1.00 1.00 O +ATOM 471 CB ASN A 60 17.586 21.282 13.461 1.00 1.00 C +ATOM 472 CG ASN A 60 16.576 21.258 12.315 1.00 1.00 C +ATOM 473 OD1 ASN A 60 15.440 21.819 12.378 1.00 1.00 O +ATOM 474 ND2 ASN A 60 16.924 20.586 11.216 1.00 1.00 N +ATOM 475 N ILE A 61 20.717 22.964 12.260 1.00 1.00 N +ATOM 476 CA ILE A 61 21.184 24.263 11.690 1.00 1.00 C +ATOM 477 C ILE A 61 21.110 24.111 10.173 1.00 1.00 C +ATOM 478 O ILE A 61 21.841 23.198 9.686 1.00 1.00 O +ATOM 479 CB ILE A 61 22.650 24.516 12.172 1.00 1.00 C +ATOM 480 CG1 ILE A 61 22.662 24.819 13.699 1.00 1.00 C +ATOM 481 CG2 ILE A 61 23.376 25.645 11.409 1.00 1.00 C +ATOM 482 CD1 ILE A 61 24.123 24.981 14.195 1.00 1.00 C +ATOM 483 N GLN A 62 20.291 24.875 9.507 1.00 1.00 N +ATOM 484 CA GLN A 62 20.081 24.773 8.033 1.00 1.00 C +ATOM 485 C GLN A 62 20.822 25.914 7.332 1.00 1.00 C +ATOM 486 O GLN A 62 21.323 26.830 8.008 1.00 1.00 O +ATOM 487 CB GLN A 62 18.599 24.736 7.727 1.00 1.00 C +ATOM 488 CG GLN A 62 17.819 23.434 7.900 1.00 1.00 C +ATOM 489 CD GLN A 62 16.509 23.529 7.116 1.00 1.00 C +ATOM 490 OE1 GLN A 62 15.446 22.980 7.433 1.00 1.00 O +ATOM 491 NE2 GLN A 62 16.539 24.293 6.009 1.00 1.00 N +ATOM 492 N LYS A 63 20.924 25.862 6.006 1.00 1.00 N +ATOM 493 CA LYS A 63 21.656 26.847 5.240 1.00 1.00 C +ATOM 494 C LYS A 63 21.127 28.240 5.574 1.00 1.00 C +ATOM 495 O LYS A 63 19.958 28.465 5.842 1.00 1.00 O +ATOM 496 CB LYS A 63 21.631 26.642 3.731 1.00 1.00 C +ATOM 497 CG LYS A 63 20.210 26.423 3.175 1.00 1.00 C +ATOM 498 CD LYS A 63 20.268 26.589 1.656 1.00 1.00 C +ATOM 499 CE LYS A 63 19.202 25.857 0.891 1.00 1.00 C +ATOM 500 NZ LYS A 63 17.884 26.544 1.075 1.00 1.00 N +ATOM 501 N GLU A 64 22.099 29.163 5.605 1.00 1.00 N +ATOM 502 CA GLU A 64 21.907 30.563 5.881 1.00 1.00 C +ATOM 503 C GLU A 64 21.466 30.953 7.261 1.00 1.00 C +ATOM 504 O GLU A 64 21.066 32.112 7.533 1.00 1.00 O +ATOM 505 CB GLU A 64 21.023 31.223 4.784 1.00 1.00 C +ATOM 506 CG GLU A 64 21.861 31.342 3.474 1.00 1.00 C +ATOM 507 CD GLU A 64 21.156 30.726 2.311 1.00 1.00 C +ATOM 508 OE1 GLU A 64 19.942 30.793 2.170 1.00 1.00 O +ATOM 509 OE2 GLU A 64 21.954 30.152 1.535 1.00 1.00 O +ATOM 510 N SER A 65 21.674 30.034 8.191 1.00 1.00 N +ATOM 511 CA SER A 65 21.419 30.253 9.620 1.00 1.00 C +ATOM 512 C SER A 65 22.504 31.228 10.136 1.00 1.00 C +ATOM 513 O SER A 65 23.579 31.321 9.554 1.00 1.00 O +ATOM 514 CB SER A 65 21.637 28.923 10.353 1.00 1.00 C +ATOM 515 OG SER A 65 20.544 28.047 10.059 1.00 1.00 O +ATOM 516 N THR A 66 22.241 31.873 11.241 1.00 1.00 N +ATOM 517 CA THR A 66 23.212 32.762 11.891 1.00 1.00 C +ATOM 518 C THR A 66 23.509 32.224 13.290 1.00 1.00 C +ATOM 519 O THR A 66 22.544 31.942 14.034 1.00 1.00 O +ATOM 520 CB THR A 66 22.699 34.267 11.985 1.00 1.00 C +ATOM 521 OG1 THR A 66 22.495 34.690 10.589 1.00 1.00 O +ATOM 522 CG2 THR A 66 23.727 35.131 12.722 1.00 1.00 C +ATOM 523 N LEU A 67 24.790 32.021 13.618 1.00 1.00 N +ATOM 524 CA LEU A 67 25.149 31.609 14.980 1.00 1.00 C +ATOM 525 C LEU A 67 25.698 32.876 15.669 1.00 1.00 C +ATOM 526 O LEU A 67 26.158 33.730 14.894 1.00 1.00 O +ATOM 527 CB LEU A 67 26.310 30.594 14.967 1.00 1.00 C +ATOM 528 CG LEU A 67 26.290 29.480 13.960 1.00 1.00 C +ATOM 529 CD1 LEU A 67 27.393 28.442 14.229 1.00 1.00 C +ATOM 530 CD2 LEU A 67 24.942 28.807 13.952 1.00 1.00 C +ATOM 531 N HIS A 68 25.621 32.945 16.950 1.00 1.00 N +ATOM 532 CA HIS A 68 26.179 34.127 17.650 1.00 1.00 C +ATOM 533 C HIS A 68 27.475 33.651 18.304 1.00 1.00 C +ATOM 534 O HIS A 68 27.507 32.587 18.958 1.00 1.00 O +ATOM 535 CB HIS A 68 25.214 34.565 18.780 1.00 1.00 C +ATOM 536 CG HIS A 68 23.978 35.121 18.126 1.00 1.00 C +ATOM 537 ND1 HIS A 68 23.853 36.432 17.781 1.00 1.00 N +ATOM 538 CD2 HIS A 68 22.824 34.514 17.782 1.00 1.00 C +ATOM 539 CE1 HIS A 68 22.674 36.627 17.200 1.00 1.00 C +ATOM 540 NE2 HIS A 68 22.045 35.455 17.173 1.00 1.00 N +ATOM 541 N LEU A 69 28.525 34.447 18.189 1.00 1.00 N +ATOM 542 CA LEU A 69 29.801 34.145 18.829 1.00 1.00 C +ATOM 543 C LEU A 69 30.052 35.042 20.004 1.00 1.00 C +ATOM 544 O LEU A 69 30.105 36.305 19.788 1.00 1.00 O +ATOM 545 CB LEU A 69 30.925 34.304 17.753 1.00 1.00 C +ATOM 546 CG LEU A 69 32.345 34.183 18.358 1.00 1.00 C +ATOM 547 CD1 LEU A 69 32.555 32.783 18.870 1.00 1.00 C +ATOM 548 CD2 LEU A 69 33.361 34.491 17.245 1.00 1.00 C +ATOM 549 N VAL A 70 30.124 34.533 21.191 1.00 1.00 N +ATOM 550 CA VAL A 70 30.479 35.369 22.374 1.00 1.00 C +ATOM 551 C VAL A 70 31.901 34.910 22.728 1.00 1.00 C +ATOM 552 O VAL A 70 32.190 33.696 22.635 1.00 1.00 O +ATOM 553 CB VAL A 70 29.472 35.181 23.498 1.00 1.00 C +ATOM 554 CG1 VAL A 70 29.821 35.957 24.765 1.00 1.00 C +ATOM 555 CG2 VAL A 70 28.049 35.454 23.071 1.00 1.00 C +ATOM 556 N LEU A 71 32.763 35.831 23.090 1.00 1.00 N +ATOM 557 CA LEU A 71 34.145 35.472 23.481 1.00 1.00 C +ATOM 558 C LEU A 71 34.239 35.353 24.979 1.00 1.00 C +ATOM 559 O LEU A 71 33.707 36.197 25.728 1.00 1.00 O +ATOM 560 CB LEU A 71 35.114 36.564 22.907 1.00 1.00 C +ATOM 561 CG LEU A 71 35.926 35.979 21.737 1.00 1.00 C +ATOM 562 CD1 LEU A 71 35.003 35.084 20.920 1.00 1.00 C +ATOM 563 CD2 LEU A 71 36.533 37.087 20.917 1.00 1.00 C +ATOM 564 N ARG A 72 34.930 34.384 25.451 1.00 1.00 N +ATOM 565 CA ARG A 72 35.161 34.174 26.896 1.00 1.00 C +ATOM 566 C ARG A 72 36.671 34.296 27.089 1.00 1.00 C +ATOM 567 O ARG A 72 37.305 33.233 26.795 1.00 1.00 O +ATOM 568 CB ARG A 72 34.717 32.760 27.286 1.00 1.00 C +ATOM 569 CG ARG A 72 35.752 32.054 28.160 1.00 1.00 C +ATOM 570 CD ARG A 72 35.612 30.577 28.044 1.00 1.00 C +ATOM 571 NE ARG A 72 35.040 30.252 26.730 1.00 1.00 N +ATOM 572 CZ ARG A 72 34.338 29.103 26.650 1.00 1.00 C +ATOM 573 NH1 ARG A 72 34.110 28.437 27.768 1.00 1.00 N +ATOM 574 NH2 ARG A 72 34.014 28.657 25.457 1.00 1.00 N +ATOM 575 N LEU A 73 37.197 35.397 27.513 1.00 1.00 N +ATOM 576 CA LEU A 73 38.668 35.502 27.680 1.00 1.00 C +ATOM 577 C LEU A 73 39.076 34.931 29.031 1.00 1.00 C +ATOM 578 O LEU A 73 38.297 34.946 29.996 1.00 1.00 O +ATOM 579 CB LEU A 73 39.080 36.941 27.406 1.00 1.00 C +ATOM 580 CG LEU A 73 39.502 37.340 26.002 1.00 1.00 C +ATOM 581 CD1 LEU A 73 38.684 36.647 24.923 1.00 1.00 C +ATOM 582 CD2 LEU A 73 39.337 38.854 25.862 1.00 1.00 C +ATOM 583 N ARG A 74 40.294 34.412 29.045 1.00 1.00 N +ATOM 584 CA ARG A 74 40.873 33.802 30.253 1.00 1.00 C +ATOM 585 C ARG A 74 41.765 34.829 30.944 1.00 1.00 C +ATOM 586 O ARG A 74 42.945 34.994 30.583 1.00 1.00 O +ATOM 587 CB ARG A 74 41.651 32.529 29.923 1.00 1.00 C +ATOM 588 CG ARG A 74 41.608 31.444 30.989 1.00 1.00 C +ATOM 589 CD ARG A 74 41.896 30.080 30.456 1.00 1.00 C +ATOM 590 NE ARG A 74 43.311 29.735 30.563 1.00 1.00 N +ATOM 591 CZ ARG A 74 44.174 29.905 29.554 1.00 1.00 C +ATOM 592 NH1 ARG A 74 43.754 30.312 28.356 1.00 1.00 N +ATOM 593 NH2 ARG A 74 45.477 29.726 29.763 1.00 1.00 N +ATOM 594 N GLY A 75 41.165 35.531 31.898 1.00 1.00 N +ATOM 595 CA GLY A 75 41.845 36.550 32.686 1.00 1.00 C +ATOM 596 C GLY A 75 41.251 37.941 32.588 1.00 1.00 C +ATOM 597 O GLY A 75 41.102 38.523 31.500 1.00 1.00 O +ATOM 598 N GLY A 76 40.946 38.472 33.757 1.00 1.00 N +ATOM 599 CA GLY A 76 40.373 39.813 33.944 1.00 1.00 C +ATOM 600 C GLY A 76 40.031 39.992 35.432 1.00 1.00 C +ATOM 601 O GLY A 76 38.933 40.525 35.687 1.00 1.00 O +ATOM 602 OXT GLY A 76 40.862 39.575 36.251 1.00 1.00 O +ATOM 603 O HOH A 77 45.747 30.081 19.708 1.00 1.00 O +ATOM 604 O HOH A 78 19.168 31.868 17.050 1.00 1.00 O +ATOM 605 O HOH A 79 32.010 38.387 19.636 1.00 1.00 O +ATOM 606 O HOH A 80 42.084 27.361 21.953 1.00 1.00 O +ATOM 607 O HOH A 81 21.314 20.644 8.719 1.00 1.00 O +ATOM 608 O HOH A 82 31.965 38.637 3.699 1.00 1.00 O +ATOM 609 O HOH A 83 27.707 15.908 4.653 1.00 1.00 O +ATOM 610 O HOH A 84 19.969 32.720 14.769 1.00 1.00 O +ATOM 611 O HOH A 85 29.847 13.577 10.864 1.00 1.00 O +ATOM 612 O HOH A 86 23.893 27.864 1.501 1.00 1.00 O +ATOM 613 O HOH A 87 19.638 23.312 4.775 1.00 1.00 O +ATOM 614 O HOH A 88 34.628 29.369 4.779 1.00 1.00 O +ATOM 615 O HOH A 89 42.240 24.744 25.707 1.00 1.00 O +ATOM 616 O HOH A 90 30.290 42.500 8.820 1.00 1.00 O +ATOM 617 O HOH A 91 24.512 39.162 10.841 1.00 1.00 O +ATOM 618 O HOH A 92 26.557 43.450 19.940 1.00 1.00 O +ATOM 619 O HOH A 93 42.535 22.385 13.872 1.00 1.00 O +ATOM 620 O HOH A 94 42.440 26.381 12.686 1.00 1.00 O +ATOM 621 O HOH A 95 22.651 14.457 13.085 1.00 1.00 O +ATOM 622 O HOH A 96 35.325 26.551 23.202 1.00 1.00 O +ATOM 623 O HOH A 97 23.629 20.940 3.146 1.00 1.00 O +ATOM 624 O HOH A 98 25.928 21.774 2.325 1.00 1.00 O +ATOM 625 O HOH A 99 33.388 21.973 5.659 1.00 1.00 O +ATOM 626 O HOH A 100 18.326 23.911 17.697 1.00 1.00 O +ATOM 627 O HOH A 101 18.160 27.072 10.662 1.00 1.00 O +ATOM 628 O HOH A 102 34.746 17.167 18.219 1.00 1.00 O +ATOM 629 O HOH A 103 19.801 32.364 20.210 1.00 1.00 O +ATOM 630 O HOH A 104 30.285 26.829 22.191 1.00 1.00 O +ATOM 631 O HOH A 105 44.612 32.306 16.961 1.00 1.00 O +ATOM 632 O HOH A 106 16.287 25.999 13.142 1.00 1.00 O +ATOM 633 O HOH A 107 27.101 42.135 15.494 1.00 1.00 O +ATOM 634 O HOH A 108 37.209 23.795 21.367 1.00 1.00 O +ATOM 635 O HOH A 109 19.582 32.034 -0.685 1.00 1.00 O +ATOM 636 O HOH A 110 28.824 25.094 0.886 1.00 1.00 O +ATOM 637 O HOH A 111 25.146 19.162 25.323 1.00 1.00 O +ATOM 638 O HOH A 112 20.747 37.769 14.674 1.00 1.00 O +ATOM 639 O HOH A 113 16.035 17.841 8.765 1.00 1.00 O +ATOM 640 O HOH A 114 35.712 46.814 12.926 1.00 1.00 O +ATOM 641 O HOH A 115 15.570 27.475 7.482 1.00 1.00 O +ATOM 642 O HOH A 116 33.447 21.075 2.918 1.00 1.00 O +ATOM 643 O HOH A 117 41.116 39.021 13.061 1.00 1.00 O +ATOM 644 O HOH A 118 32.346 13.689 18.912 1.00 1.00 O +ATOM 645 O HOH A 119 31.197 13.048 7.920 1.00 1.00 O +ATOM 646 O HOH A 120 42.853 39.375 29.308 1.00 1.00 O +ATOM 647 O HOH A 121 39.646 23.959 9.699 1.00 1.00 O +ATOM 648 O HOH A 122 34.405 45.181 13.420 1.00 1.00 O +ATOM 649 O HOH A 123 26.517 24.300 27.592 1.00 1.00 O +ATOM 650 O HOH A 124 40.740 38.734 9.602 1.00 1.00 O +ATOM 651 O HOH A 125 31.494 18.276 23.170 1.00 1.00 O +ATOM 652 O HOH A 126 37.752 30.947 1.059 1.00 1.00 O +ATOM 653 O HOH A 127 31.771 16.941 7.511 1.00 1.00 O +ATOM 654 O HOH A 128 41.628 24.537 10.145 1.00 1.00 O +ATOM 655 O HOH A 129 28.988 22.175 -1.744 1.00 1.00 O +ATOM 656 O HOH A 130 14.882 16.539 10.692 1.00 1.00 O +ATOM 657 O HOH A 131 32.589 40.385 7.523 1.00 1.00 O +ATOM 658 O HOH A 132 38.363 30.369 5.579 1.00 1.00 O +ATOM 659 O HOH A 133 27.841 46.062 17.589 1.00 1.00 O +ATOM 660 O HOH A 134 37.667 43.421 17.000 1.00 1.00 O +TER +HEADER A28CYR +MODEL 0 +ATOM 0 N CYR A 28 37.481 25.749 14.571 1.00 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 1.00 1.00 C +ATOM 2 CB CYR A 28 39.337 24.290 13.871 1.00 1.00 C +ATOM 3 SG CYR A 28 41.143 24.265 13.554 1.00 1.00 S +ATOM 4 S1L CYR A 28 41.874 22.539 14.307 1.00 1.00 S +ATOM 5 C1L CYR A 28 43.071 22.028 12.955 1.00 1.00 C +ATOM 6 C1R CYR A 28 44.447 22.557 13.119 1.00 1.00 C +ATOM 7 C2R CYR A 28 45.005 23.573 12.393 1.00 1.00 C +ATOM 8 C1 CYR A 28 45.443 22.100 14.210 1.00 1.00 C +ATOM 9 C2 CYR A 28 46.472 23.796 12.682 1.00 1.00 C +ATOM 10 NN CYR A 28 46.662 22.823 13.738 1.00 1.00 N +ATOM 11 ON CYR A 28 47.754 22.636 14.359 1.00 1.00 O +ATOM 12 C2D CYR A 28 46.630 25.354 13.120 1.00 1.00 C +ATOM 13 C1D CYR A 28 44.994 22.478 15.607 1.00 1.00 C +ATOM 14 C2A CYR A 28 47.460 23.445 11.640 1.00 1.00 C +ATOM 15 C1A CYR A 28 45.770 20.613 14.162 1.00 1.00 C +ATOM 16 C CYR A 28 38.718 26.591 12.616 1.00 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 1.00 1.00 O +TER +ENDMDL +MODEL 1 +ATOM 0 N CYR A 28 37.443 25.778 14.545 0.81 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.81 1.00 C +ATOM 2 CB CYR A 28 39.297 24.299 13.639 0.81 1.00 C +ATOM 3 SG CYR A 28 41.100 24.277 13.627 0.81 1.00 S +ATOM 4 S1L CYR A 28 41.378 22.418 14.366 0.81 1.00 S +ATOM 5 C1L CYR A 28 41.085 21.497 12.913 0.81 1.00 C +ATOM 6 C1R CYR A 28 42.160 21.696 11.882 0.81 1.00 C +ATOM 7 C2R CYR A 28 42.039 22.252 10.682 0.81 1.00 C +ATOM 8 C1 CYR A 28 43.603 21.177 12.132 0.81 1.00 C +ATOM 9 C2 CYR A 28 43.229 22.259 9.861 0.81 1.00 C +ATOM 10 NN CYR A 28 44.179 21.552 10.774 0.81 1.00 N +ATOM 11 ON CYR A 28 45.414 21.404 10.543 0.81 1.00 O +ATOM 12 C2D CYR A 28 43.749 23.665 9.758 0.81 1.00 C +ATOM 13 C1D CYR A 28 44.484 21.924 13.216 0.81 1.00 C +ATOM 14 C2A CYR A 28 43.288 21.533 8.536 0.81 1.00 C +ATOM 15 C1A CYR A 28 43.644 19.727 12.258 0.81 1.00 C +ATOM 16 C CYR A 28 38.669 26.606 12.618 0.81 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.81 1.00 O +TER +ENDMDL +MODEL 2 +ATOM 0 N CYR A 28 37.533 25.729 14.575 0.80 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.80 1.00 C +ATOM 2 CB CYR A 28 39.395 24.385 13.530 0.80 1.00 C +ATOM 3 SG CYR A 28 41.157 24.268 13.548 0.80 1.00 S +ATOM 4 S1L CYR A 28 41.643 22.347 13.064 0.80 1.00 S +ATOM 5 C1L CYR A 28 42.621 22.464 11.550 0.80 1.00 C +ATOM 6 C1R CYR A 28 44.043 22.725 11.965 0.80 1.00 C +ATOM 7 C2R CYR A 28 44.558 23.916 12.092 0.80 1.00 C +ATOM 8 C1 CYR A 28 45.072 21.548 12.185 0.80 1.00 C +ATOM 9 C2 CYR A 28 46.020 23.944 12.408 0.80 1.00 C +ATOM 10 NN CYR A 28 46.243 22.423 12.556 0.80 1.00 N +ATOM 11 ON CYR A 28 47.461 22.029 12.720 0.80 1.00 O +ATOM 12 C2D CYR A 28 46.235 24.692 13.681 0.80 1.00 C +ATOM 13 C1D CYR A 28 44.886 20.668 13.455 0.80 1.00 C +ATOM 14 C2A CYR A 28 46.947 24.569 11.335 0.80 1.00 C +ATOM 15 C1A CYR A 28 45.360 20.644 10.993 0.80 1.00 C +ATOM 16 C CYR A 28 38.753 26.589 12.602 0.80 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.80 1.00 O +TER +ENDMDL +MODEL 3 +ATOM 0 N CYR A 28 37.417 25.782 14.552 0.60 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.60 1.00 C +ATOM 2 CB CYR A 28 39.232 24.310 13.528 0.60 1.00 C +ATOM 3 SG CYR A 28 40.996 24.195 13.201 0.60 1.00 S +ATOM 4 S1L CYR A 28 41.113 22.404 12.342 0.60 1.00 S +ATOM 5 C1L CYR A 28 40.902 22.700 10.587 0.60 1.00 C +ATOM 6 C1R CYR A 28 41.649 21.701 9.707 0.60 1.00 C +ATOM 7 C2R CYR A 28 42.660 22.053 8.929 0.60 1.00 C +ATOM 8 C1 CYR A 28 41.403 20.210 9.539 0.60 1.00 C +ATOM 9 C2 CYR A 28 43.181 21.048 8.029 0.60 1.00 C +ATOM 10 NN CYR A 28 42.231 19.939 8.398 0.60 1.00 N +ATOM 11 ON CYR A 28 42.425 18.730 8.022 0.60 1.00 O +ATOM 12 C2D CYR A 28 44.665 20.754 8.232 0.60 1.00 C +ATOM 13 C1D CYR A 28 41.736 19.403 10.885 0.60 1.00 C +ATOM 14 C2A CYR A 28 42.872 21.483 6.574 0.60 1.00 C +ATOM 15 C1A CYR A 28 39.941 19.936 9.072 0.60 1.00 C +ATOM 16 C CYR A 28 38.662 26.610 12.615 0.60 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.60 1.00 O +TER +ENDMDL +MODEL 4 +ATOM 0 N CYR A 28 37.461 25.775 14.540 0.54 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.54 1.00 C +ATOM 2 CB CYR A 28 39.266 24.359 13.587 0.54 1.00 C +ATOM 3 SG CYR A 28 40.095 23.385 14.967 0.54 1.00 S +ATOM 4 S1L CYR A 28 40.505 21.614 14.069 0.54 1.00 S +ATOM 5 C1L CYR A 28 41.998 21.944 13.114 0.54 1.00 C +ATOM 6 C1R CYR A 28 43.117 22.296 13.973 0.54 1.00 C +ATOM 7 C2R CYR A 28 43.607 23.561 14.205 0.54 1.00 C +ATOM 8 C1 CYR A 28 43.874 21.124 14.655 0.54 1.00 C +ATOM 9 C2 CYR A 28 44.785 23.470 15.131 0.54 1.00 C +ATOM 10 NN CYR A 28 44.902 21.916 15.324 0.54 1.00 N +ATOM 11 ON CYR A 28 45.835 21.399 15.997 0.54 1.00 O +ATOM 12 C2D CYR A 28 44.314 24.064 16.420 0.54 1.00 C +ATOM 13 C1D CYR A 28 43.032 20.354 15.730 0.54 1.00 C +ATOM 14 C2A CYR A 28 46.086 24.056 14.518 0.54 1.00 C +ATOM 15 C1A CYR A 28 44.652 20.184 13.668 0.54 1.00 C +ATOM 16 C CYR A 28 38.671 26.620 12.595 0.54 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.54 1.00 O +TER +ENDMDL +MODEL 5 +ATOM 0 N CYR A 28 37.521 25.717 14.600 0.46 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.46 1.00 C +ATOM 2 CB CYR A 28 39.259 24.273 13.574 0.46 1.00 C +ATOM 3 SG CYR A 28 40.156 23.938 12.039 0.46 1.00 S +ATOM 4 S1L CYR A 28 40.489 21.879 12.104 0.46 1.00 S +ATOM 5 C1L CYR A 28 42.219 21.792 12.682 0.46 1.00 C +ATOM 6 C1R CYR A 28 42.248 21.617 14.152 0.46 1.00 C +ATOM 7 C2R CYR A 28 42.618 22.504 15.084 0.46 1.00 C +ATOM 8 C1 CYR A 28 41.809 20.281 14.801 0.46 1.00 C +ATOM 9 C2 CYR A 28 42.628 21.969 16.464 0.46 1.00 C +ATOM 10 NN CYR A 28 42.196 20.536 16.231 0.46 1.00 N +ATOM 11 ON CYR A 28 42.317 19.672 17.175 0.46 1.00 O +ATOM 12 C2D CYR A 28 41.519 22.604 17.442 0.46 1.00 C +ATOM 13 C1D CYR A 28 40.267 19.967 14.820 0.46 1.00 C +ATOM 14 C2A CYR A 28 44.084 21.949 17.054 0.46 1.00 C +ATOM 15 C1A CYR A 28 42.593 19.143 14.229 0.46 1.00 C +ATOM 16 C CYR A 28 38.772 26.609 12.561 0.46 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.46 1.00 O +TER +ENDMDL +MODEL 6 +ATOM 0 N CYR A 28 37.577 25.754 14.514 0.41 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.41 1.00 C +ATOM 2 CB CYR A 28 39.241 24.337 13.465 0.41 1.00 C +ATOM 3 SG CYR A 28 41.013 24.053 12.912 0.41 1.00 S +ATOM 4 S1L CYR A 28 41.890 24.063 14.664 0.41 1.00 S +ATOM 5 C1L CYR A 28 42.237 22.268 15.087 0.41 1.00 C +ATOM 6 C1R CYR A 28 43.009 22.073 16.337 0.41 1.00 C +ATOM 7 C2R CYR A 28 44.261 21.555 16.436 0.41 1.00 C +ATOM 8 C1 CYR A 28 42.411 22.439 17.717 0.41 1.00 C +ATOM 9 C2 CYR A 28 44.775 21.575 17.910 0.41 1.00 C +ATOM 10 NN CYR A 28 43.545 22.144 18.614 0.41 1.00 N +ATOM 11 ON CYR A 28 43.472 22.074 19.921 0.41 1.00 O +ATOM 12 C2D CYR A 28 45.871 22.625 18.047 0.41 1.00 C +ATOM 13 C1D CYR A 28 42.189 23.933 17.960 0.41 1.00 C +ATOM 14 C2A CYR A 28 45.128 20.190 18.463 0.41 1.00 C +ATOM 15 C1A CYR A 28 41.263 21.571 18.016 0.41 1.00 C +ATOM 16 C CYR A 28 38.711 26.579 12.638 0.41 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.41 1.00 O +TER +ENDMDL +MODEL 7 +ATOM 0 N CYR A 28 37.540 25.729 14.572 0.30 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.30 1.00 C +ATOM 2 CB CYR A 28 39.224 24.313 13.522 0.30 1.00 C +ATOM 3 SG CYR A 28 40.910 23.742 13.911 0.30 1.00 S +ATOM 4 S1L CYR A 28 41.988 24.148 12.396 0.30 1.00 S +ATOM 5 C1L CYR A 28 42.903 25.640 12.811 0.30 1.00 C +ATOM 6 C1R CYR A 28 44.319 25.380 13.238 0.30 1.00 C +ATOM 7 C2R CYR A 28 44.747 25.431 14.525 0.30 1.00 C +ATOM 8 C1 CYR A 28 45.405 25.153 12.282 0.30 1.00 C +ATOM 9 C2 CYR A 28 46.277 25.288 14.650 0.30 1.00 C +ATOM 10 NN CYR A 28 46.569 25.108 13.250 0.30 1.00 N +ATOM 11 ON CYR A 28 47.718 24.775 12.829 0.30 1.00 O +ATOM 12 C2D CYR A 28 46.575 23.990 15.451 0.30 1.00 C +ATOM 13 C1D CYR A 28 45.404 23.810 11.628 0.30 1.00 C +ATOM 14 C2A CYR A 28 47.046 26.512 15.209 0.30 1.00 C +ATOM 15 C1A CYR A 28 45.683 26.245 11.207 0.30 1.00 C +ATOM 16 C CYR A 28 38.753 26.598 12.588 0.30 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.30 1.00 O +TER +ENDMDL +MODEL 8 +ATOM 0 N CYR A 28 37.529 25.669 14.672 0.29 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.29 1.00 C +ATOM 2 CB CYR A 28 39.484 24.389 13.775 0.29 1.00 C +ATOM 3 SG CYR A 28 39.361 23.596 12.085 0.29 1.00 S +ATOM 4 S1L CYR A 28 40.890 22.278 12.039 0.29 1.00 S +ATOM 5 C1L CYR A 28 42.185 23.263 11.196 0.29 1.00 C +ATOM 6 C1R CYR A 28 43.347 22.415 10.704 0.29 1.00 C +ATOM 7 C2R CYR A 28 44.629 22.415 11.112 0.29 1.00 C +ATOM 8 C1 CYR A 28 43.198 21.468 9.523 0.29 1.00 C +ATOM 9 C2 CYR A 28 45.545 21.456 10.561 0.29 1.00 C +ATOM 10 NN CYR A 28 44.638 20.978 9.486 0.29 1.00 N +ATOM 11 ON CYR A 28 45.044 19.901 8.929 0.29 1.00 O +ATOM 12 C2D CYR A 28 45.801 20.312 11.589 0.29 1.00 C +ATOM 13 C1D CYR A 28 42.331 20.283 9.911 0.29 1.00 C +ATOM 14 C2A CYR A 28 46.812 21.999 9.865 0.29 1.00 C +ATOM 15 C1A CYR A 28 42.714 21.954 8.185 0.29 1.00 C +ATOM 16 C CYR A 28 38.853 26.580 12.564 0.29 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.29 1.00 O +TER +ENDMDL +MODEL 9 +ATOM 0 N CYR A 28 37.472 25.816 14.470 0.26 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.26 1.00 C +ATOM 2 CB CYR A 28 39.136 24.321 13.557 0.26 1.00 C +ATOM 3 SG CYR A 28 40.876 24.014 13.061 0.26 1.00 S +ATOM 4 S1L CYR A 28 40.807 24.502 11.065 0.26 1.00 S +ATOM 5 C1L CYR A 28 42.374 25.331 10.801 0.26 1.00 C +ATOM 6 C1R CYR A 28 43.637 24.471 11.037 0.26 1.00 C +ATOM 7 C2R CYR A 28 44.321 24.419 12.197 0.26 1.00 C +ATOM 8 C1 CYR A 28 44.226 23.599 9.960 0.26 1.00 C +ATOM 9 C2 CYR A 28 45.537 23.548 12.149 0.26 1.00 C +ATOM 10 NN CYR A 28 45.482 23.143 10.724 0.26 1.00 N +ATOM 11 ON CYR A 28 46.146 22.127 10.387 0.26 1.00 O +ATOM 12 C2D CYR A 28 45.431 22.318 13.122 0.26 1.00 C +ATOM 13 C1D CYR A 28 43.377 22.314 9.768 0.26 1.00 C +ATOM 14 C2A CYR A 28 46.893 24.278 12.336 0.26 1.00 C +ATOM 15 C1A CYR A 28 44.660 24.315 8.658 0.26 1.00 C +ATOM 16 C CYR A 28 38.597 26.638 12.604 0.26 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.26 1.00 O +TER +ENDMDL +MODEL 10 +ATOM 0 N CYR A 28 37.507 25.748 14.560 0.21 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.21 1.00 C +ATOM 2 CB CYR A 28 39.197 24.297 13.462 0.21 1.00 C +ATOM 3 SG CYR A 28 40.766 24.102 12.667 0.21 1.00 S +ATOM 4 S1L CYR A 28 42.127 25.061 13.881 0.21 1.00 S +ATOM 5 C1L CYR A 28 42.227 24.076 15.471 0.21 1.00 C +ATOM 6 C1R CYR A 28 43.515 24.077 16.234 0.21 1.00 C +ATOM 7 C2R CYR A 28 44.696 24.639 15.919 0.21 1.00 C +ATOM 8 C1 CYR A 28 43.544 23.239 17.558 0.21 1.00 C +ATOM 9 C2 CYR A 28 45.710 24.543 16.983 0.21 1.00 C +ATOM 10 NN CYR A 28 44.871 23.730 17.983 0.21 1.00 N +ATOM 11 ON CYR A 28 45.415 23.187 19.046 0.21 1.00 O +ATOM 12 C2D CYR A 28 46.027 25.909 17.574 0.21 1.00 C +ATOM 13 C1D CYR A 28 42.490 23.786 18.503 0.21 1.00 C +ATOM 14 C2A CYR A 28 46.904 23.743 16.551 0.21 1.00 C +ATOM 15 C1A CYR A 28 43.540 21.718 17.340 0.21 1.00 C +ATOM 16 C CYR A 28 38.722 26.578 12.635 0.21 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.21 1.00 O +TER +ENDMDL +MODEL 11 +ATOM 0 N CYR A 28 37.591 25.668 14.642 0.20 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.20 1.00 C +ATOM 2 CB CYR A 28 39.469 24.375 13.678 0.20 1.00 C +ATOM 3 SG CYR A 28 39.569 23.249 15.087 0.20 1.00 S +ATOM 4 S1L CYR A 28 41.089 23.996 16.107 0.20 1.00 S +ATOM 5 C1L CYR A 28 42.509 23.020 15.698 0.20 1.00 C +ATOM 6 C1R CYR A 28 43.058 22.148 16.757 0.20 1.00 C +ATOM 7 C2R CYR A 28 44.082 22.418 17.555 0.20 1.00 C +ATOM 8 C1 CYR A 28 42.395 20.786 16.999 0.20 1.00 C +ATOM 9 C2 CYR A 28 44.275 21.314 18.535 0.20 1.00 C +ATOM 10 NN CYR A 28 43.274 20.311 18.158 0.20 1.00 N +ATOM 11 ON CYR A 28 43.048 19.204 18.777 0.20 1.00 O +ATOM 12 C2D CYR A 28 43.961 21.793 19.987 0.20 1.00 C +ATOM 13 C1D CYR A 28 40.882 20.668 17.376 0.20 1.00 C +ATOM 14 C2A CYR A 28 45.694 20.678 18.564 0.20 1.00 C +ATOM 15 C1A CYR A 28 42.808 19.875 15.817 0.20 1.00 C +ATOM 16 C CYR A 28 38.860 26.548 12.611 0.20 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.20 1.00 O +TER +ENDMDL +MODEL 12 +ATOM 0 N CYR A 28 37.504 25.821 14.446 0.19 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.19 1.00 C +ATOM 2 CB CYR A 28 39.065 24.309 13.591 0.19 1.00 C +ATOM 3 SG CYR A 28 40.825 23.927 13.176 0.19 1.00 S +ATOM 4 S1L CYR A 28 40.958 23.981 11.081 0.19 1.00 S +ATOM 5 C1L CYR A 28 42.154 25.392 10.792 0.19 1.00 C +ATOM 6 C1R CYR A 28 43.499 25.180 11.343 0.19 1.00 C +ATOM 7 C2R CYR A 28 44.120 25.793 12.397 0.19 1.00 C +ATOM 8 C1 CYR A 28 44.413 24.204 10.662 0.19 1.00 C +ATOM 9 C2 CYR A 28 45.570 25.316 12.589 0.19 1.00 C +ATOM 10 NN CYR A 28 45.585 24.236 11.508 0.19 1.00 N +ATOM 11 ON CYR A 28 46.644 23.529 11.416 0.19 1.00 O +ATOM 12 C2D CYR A 28 45.708 24.766 14.011 0.19 1.00 C +ATOM 13 C1D CYR A 28 44.060 22.764 10.562 0.19 1.00 C +ATOM 14 C2A CYR A 28 46.654 26.355 12.439 0.19 1.00 C +ATOM 15 C1A CYR A 28 44.840 24.746 9.249 0.19 1.00 C +ATOM 16 C CYR A 28 38.581 26.660 12.579 0.19 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.19 1.00 O +TER +ENDMDL +MODEL 13 +ATOM 0 N CYR A 28 37.437 25.756 14.583 0.17 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.17 1.00 C +ATOM 2 CB CYR A 28 39.288 24.313 13.397 0.17 1.00 C +ATOM 3 SG CYR A 28 39.545 23.101 14.781 0.17 1.00 S +ATOM 4 S1L CYR A 28 41.012 24.079 15.801 0.17 1.00 S +ATOM 5 C1L CYR A 28 42.468 23.209 15.212 0.17 1.00 C +ATOM 6 C1R CYR A 28 43.676 23.380 16.058 0.17 1.00 C +ATOM 7 C2R CYR A 28 44.568 24.382 16.091 0.17 1.00 C +ATOM 8 C1 CYR A 28 44.011 22.372 17.044 0.17 1.00 C +ATOM 9 C2 CYR A 28 45.667 24.193 17.031 0.17 1.00 C +ATOM 10 NN CYR A 28 45.356 22.858 17.546 0.17 1.00 N +ATOM 11 ON CYR A 28 46.231 22.205 18.251 0.17 1.00 O +ATOM 12 C2D CYR A 28 45.436 25.158 18.208 0.17 1.00 C +ATOM 13 C1D CYR A 28 42.989 22.259 18.218 0.17 1.00 C +ATOM 14 C2A CYR A 28 47.127 24.435 16.533 0.17 1.00 C +ATOM 15 C1A CYR A 28 44.295 20.959 16.504 0.17 1.00 C +ATOM 16 C CYR A 28 38.703 26.625 12.571 0.17 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.17 1.00 O +TER +ENDMDL +MODEL 14 +ATOM 0 N CYR A 28 37.544 25.696 14.622 0.16 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.16 1.00 C +ATOM 2 CB CYR A 28 39.395 24.298 13.731 0.16 1.00 C +ATOM 3 SG CYR A 28 39.178 23.370 12.206 0.16 1.00 S +ATOM 4 S1L CYR A 28 39.898 21.593 12.771 0.16 1.00 S +ATOM 5 C1L CYR A 28 41.705 21.870 12.700 0.16 1.00 C +ATOM 6 C1R CYR A 28 42.437 21.761 13.973 0.16 1.00 C +ATOM 7 C2R CYR A 28 42.869 22.771 14.678 0.16 1.00 C +ATOM 8 C1 CYR A 28 42.749 20.487 14.529 0.16 1.00 C +ATOM 9 C2 CYR A 28 43.643 22.438 15.852 0.16 1.00 C +ATOM 10 NN CYR A 28 43.594 20.955 15.719 0.16 1.00 N +ATOM 11 ON CYR A 28 43.838 20.189 16.757 0.16 1.00 O +ATOM 12 C2D CYR A 28 43.012 22.940 17.152 0.16 1.00 C +ATOM 13 C1D CYR A 28 41.476 19.770 15.027 0.16 1.00 C +ATOM 14 C2A CYR A 28 45.101 23.017 15.633 0.16 1.00 C +ATOM 15 C1A CYR A 28 43.619 19.587 13.661 0.16 1.00 C +ATOM 16 C CYR A 28 38.810 26.572 12.599 0.16 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.16 1.00 O +TER +ENDMDL +MODEL 15 +ATOM 0 N CYR A 28 37.491 25.761 14.547 0.14 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.14 1.00 C +ATOM 2 CB CYR A 28 39.225 24.276 13.481 0.14 1.00 C +ATOM 3 SG CYR A 28 39.596 23.414 15.026 0.14 1.00 S +ATOM 4 S1L CYR A 28 39.701 21.426 14.436 0.14 1.00 S +ATOM 5 C1L CYR A 28 41.469 21.019 14.497 0.14 1.00 C +ATOM 6 C1R CYR A 28 42.211 21.467 15.772 0.14 1.00 C +ATOM 7 C2R CYR A 28 43.230 22.299 15.761 0.14 1.00 C +ATOM 8 C1 CYR A 28 41.915 21.008 17.131 0.14 1.00 C +ATOM 9 C2 CYR A 28 43.761 22.693 17.046 0.14 1.00 C +ATOM 10 NN CYR A 28 42.972 21.827 17.907 0.14 1.00 N +ATOM 11 ON CYR A 28 42.958 22.126 19.144 0.14 1.00 O +ATOM 12 C2D CYR A 28 43.431 24.231 17.136 0.14 1.00 C +ATOM 13 C1D CYR A 28 40.558 21.360 17.734 0.14 1.00 C +ATOM 14 C2A CYR A 28 45.273 22.329 17.163 0.14 1.00 C +ATOM 15 C1A CYR A 28 42.252 19.522 17.398 0.14 1.00 C +ATOM 16 C CYR A 28 38.697 26.603 12.609 0.14 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.14 1.00 O +TER +ENDMDL +MODEL 16 +ATOM 0 N CYR A 28 37.495 25.747 14.566 0.09 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.09 1.00 C +ATOM 2 CB CYR A 28 39.156 24.329 13.538 0.09 1.00 C +ATOM 3 SG CYR A 28 39.591 23.435 15.077 0.09 1.00 S +ATOM 4 S1L CYR A 28 39.291 21.547 14.353 0.09 1.00 S +ATOM 5 C1L CYR A 28 40.903 21.186 13.540 0.09 1.00 C +ATOM 6 C1R CYR A 28 42.106 21.057 14.451 0.09 1.00 C +ATOM 7 C2R CYR A 28 43.104 21.952 14.512 0.09 1.00 C +ATOM 8 C1 CYR A 28 42.310 19.879 15.327 0.09 1.00 C +ATOM 9 C2 CYR A 28 44.236 21.591 15.486 0.09 1.00 C +ATOM 10 NN CYR A 28 43.802 20.178 15.731 0.09 1.00 N +ATOM 11 ON CYR A 28 44.585 19.329 16.248 0.09 1.00 O +ATOM 12 C2D CYR A 28 44.326 22.321 16.831 0.09 1.00 C +ATOM 13 C1D CYR A 28 41.421 19.751 16.567 0.09 1.00 C +ATOM 14 C2A CYR A 28 45.604 21.681 14.712 0.09 1.00 C +ATOM 15 C1A CYR A 28 42.321 18.551 14.583 0.09 1.00 C +ATOM 16 C CYR A 28 38.721 26.585 12.625 0.09 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.09 1.00 O +TER +ENDMDL +MODEL 17 +ATOM 0 N CYR A 28 37.508 25.791 14.492 0.08 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.08 1.00 C +ATOM 2 CB CYR A 28 39.237 24.300 13.568 0.08 1.00 C +ATOM 3 SG CYR A 28 40.259 23.693 15.057 0.08 1.00 S +ATOM 4 S1L CYR A 28 39.276 21.888 15.234 0.08 1.00 S +ATOM 5 C1L CYR A 28 40.021 20.768 13.994 0.08 1.00 C +ATOM 6 C1R CYR A 28 41.528 20.827 13.837 0.08 1.00 C +ATOM 7 C2R CYR A 28 42.228 21.403 12.873 0.08 1.00 C +ATOM 8 C1 CYR A 28 42.560 20.134 14.879 0.08 1.00 C +ATOM 9 C2 CYR A 28 43.672 21.112 12.865 0.08 1.00 C +ATOM 10 NN CYR A 28 43.807 20.266 14.081 0.08 1.00 N +ATOM 11 ON CYR A 28 44.858 19.638 14.532 0.08 1.00 O +ATOM 12 C2D CYR A 28 44.598 22.361 12.962 0.08 1.00 C +ATOM 13 C1D CYR A 28 42.819 20.913 16.206 0.08 1.00 C +ATOM 14 C2A CYR A 28 44.054 20.303 11.603 0.08 1.00 C +ATOM 15 C1A CYR A 28 42.262 18.680 15.156 0.08 1.00 C +ATOM 16 C CYR A 28 38.644 26.613 12.619 0.08 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.08 1.00 O +TER +ENDMDL +MODEL 18 +ATOM 0 N CYR A 28 37.542 25.754 14.531 0.07 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.07 1.00 C +ATOM 2 CB CYR A 28 39.261 24.370 13.677 0.07 1.00 C +ATOM 3 SG CYR A 28 39.877 23.445 15.213 0.07 1.00 S +ATOM 4 S1L CYR A 28 41.247 24.742 16.003 0.07 1.00 S +ATOM 5 C1L CYR A 28 42.916 24.055 15.785 0.07 1.00 C +ATOM 6 C1R CYR A 28 43.594 23.810 17.118 0.07 1.00 C +ATOM 7 C2R CYR A 28 43.130 24.064 18.396 0.07 1.00 C +ATOM 8 C1 CYR A 28 45.021 23.127 17.107 0.07 1.00 C +ATOM 9 C2 CYR A 28 44.039 23.597 19.487 0.07 1.00 C +ATOM 10 NN CYR A 28 45.026 22.811 18.562 0.07 1.00 N +ATOM 11 ON CYR A 28 46.077 22.276 19.080 0.07 1.00 O +ATOM 12 C2D CYR A 28 43.460 22.540 20.446 0.07 1.00 C +ATOM 13 C1D CYR A 28 45.048 21.808 16.307 0.07 1.00 C +ATOM 14 C2A CYR A 28 44.772 24.795 20.123 0.07 1.00 C +ATOM 15 C1A CYR A 28 46.189 24.058 16.780 0.07 1.00 C +ATOM 16 C CYR A 28 38.708 26.607 12.596 0.07 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.07 1.00 O +TER +ENDMDL +MODEL 19 +ATOM 0 N CYR A 28 37.511 25.762 14.535 0.07 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.07 1.00 C +ATOM 2 CB CYR A 28 39.201 24.456 13.294 0.07 1.00 C +ATOM 3 SG CYR A 28 40.928 24.290 12.752 0.07 1.00 S +ATOM 4 S1L CYR A 28 41.276 22.362 12.480 0.07 1.00 S +ATOM 5 C1L CYR A 28 40.505 22.097 10.882 0.07 1.00 C +ATOM 6 C1R CYR A 28 40.798 20.716 10.297 0.07 1.00 C +ATOM 7 C2R CYR A 28 41.667 20.452 9.325 0.07 1.00 C +ATOM 8 C1 CYR A 28 40.096 19.427 10.874 0.07 1.00 C +ATOM 9 C2 CYR A 28 41.624 19.018 8.850 0.07 1.00 C +ATOM 10 NN CYR A 28 40.681 18.453 9.899 0.07 1.00 N +ATOM 11 ON CYR A 28 40.343 17.192 9.845 0.07 1.00 O +ATOM 12 C2D CYR A 28 42.903 18.283 8.995 0.07 1.00 C +ATOM 13 C1D CYR A 28 40.786 19.110 12.292 0.07 1.00 C +ATOM 14 C2A CYR A 28 41.025 18.734 7.488 0.07 1.00 C +ATOM 15 C1A CYR A 28 38.607 19.329 10.930 0.07 1.00 C +ATOM 16 C CYR A 28 38.697 26.582 12.640 0.07 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.07 1.00 O +TER +ENDMDL +MODEL 20 +ATOM 0 N CYR A 28 37.505 25.730 14.588 0.06 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.06 1.00 C +ATOM 2 CB CYR A 28 39.212 24.295 13.499 0.06 1.00 C +ATOM 3 SG CYR A 28 39.431 23.250 14.944 0.06 1.00 S +ATOM 4 S1L CYR A 28 40.701 24.072 16.272 0.06 1.00 S +ATOM 5 C1L CYR A 28 42.291 24.128 15.382 0.06 1.00 C +ATOM 6 C1R CYR A 28 43.214 22.945 15.691 0.06 1.00 C +ATOM 7 C2R CYR A 28 44.293 23.098 16.428 0.06 1.00 C +ATOM 8 C1 CYR A 28 43.042 21.475 15.189 0.06 1.00 C +ATOM 9 C2 CYR A 28 45.203 21.924 16.566 0.06 1.00 C +ATOM 10 NN CYR A 28 44.366 20.982 15.702 0.06 1.00 N +ATOM 11 ON CYR A 28 44.731 19.750 15.770 0.06 1.00 O +ATOM 12 C2D CYR A 28 45.063 21.370 18.056 0.06 1.00 C +ATOM 13 C1D CYR A 28 41.849 20.526 15.757 0.06 1.00 C +ATOM 14 C2A CYR A 28 46.663 22.156 16.093 0.06 1.00 C +ATOM 15 C1A CYR A 28 43.063 21.222 13.647 0.06 1.00 C +ATOM 16 C CYR A 28 38.750 26.578 12.619 0.06 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.06 1.00 O +TER +ENDMDL +MODEL 21 +ATOM 0 N CYR A 28 37.486 25.731 14.596 0.05 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.05 1.00 C +ATOM 2 CB CYR A 28 39.276 24.335 13.487 0.05 1.00 C +ATOM 3 SG CYR A 28 41.024 24.207 13.107 0.05 1.00 S +ATOM 4 S1L CYR A 28 41.670 22.591 14.089 0.05 1.00 S +ATOM 5 C1L CYR A 28 40.629 21.202 13.454 0.05 1.00 C +ATOM 6 C1R CYR A 28 41.183 19.833 13.729 0.05 1.00 C +ATOM 7 C2R CYR A 28 41.878 19.055 12.929 0.05 1.00 C +ATOM 8 C1 CYR A 28 40.787 19.201 15.134 0.05 1.00 C +ATOM 9 C2 CYR A 28 42.391 17.802 13.582 0.05 1.00 C +ATOM 10 NN CYR A 28 41.907 18.046 15.023 0.05 1.00 N +ATOM 11 ON CYR A 28 41.819 17.087 15.869 0.05 1.00 O +ATOM 12 C2D CYR A 28 43.930 17.768 13.422 0.05 1.00 C +ATOM 13 C1D CYR A 28 41.195 19.986 16.396 0.05 1.00 C +ATOM 14 C2A CYR A 28 41.750 16.533 13.027 0.05 1.00 C +ATOM 15 C1A CYR A 28 39.324 18.806 15.183 0.05 1.00 C +ATOM 16 C CYR A 28 38.746 26.620 12.556 0.05 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.05 1.00 O +TER +ENDMDL +MODEL 22 +ATOM 0 N CYR A 28 37.460 25.777 14.538 0.04 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.04 1.00 C +ATOM 2 CB CYR A 28 39.369 24.334 13.642 0.04 1.00 C +ATOM 3 SG CYR A 28 40.917 24.313 12.560 0.04 1.00 S +ATOM 4 S1L CYR A 28 41.487 22.327 12.575 0.04 1.00 S +ATOM 5 C1L CYR A 28 42.905 22.092 13.657 0.04 1.00 C +ATOM 6 C1R CYR A 28 42.650 22.528 15.034 0.04 1.00 C +ATOM 7 C2R CYR A 28 42.946 23.591 15.683 0.04 1.00 C +ATOM 8 C1 CYR A 28 41.852 21.617 15.940 0.04 1.00 C +ATOM 9 C2 CYR A 28 42.566 23.709 17.160 0.04 1.00 C +ATOM 10 NN CYR A 28 41.909 22.400 17.249 0.04 1.00 N +ATOM 11 ON CYR A 28 41.312 22.056 18.342 0.04 1.00 O +ATOM 12 C2D CYR A 28 41.549 24.901 17.471 0.04 1.00 C +ATOM 13 C1D CYR A 28 40.321 21.186 15.685 0.04 1.00 C +ATOM 14 C2A CYR A 28 43.635 23.667 18.266 0.04 1.00 C +ATOM 15 C1A CYR A 28 42.720 20.400 16.303 0.04 1.00 C +ATOM 16 C CYR A 28 38.666 26.637 12.570 0.04 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.04 1.00 O +TER +ENDMDL +MODEL 23 +ATOM 0 N CYR A 28 37.561 25.705 14.599 0.04 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.04 1.00 C +ATOM 2 CB CYR A 28 39.329 24.350 13.453 0.04 1.00 C +ATOM 3 SG CYR A 28 39.240 23.263 14.798 0.04 1.00 S +ATOM 4 S1L CYR A 28 41.090 23.555 15.770 0.04 1.00 S +ATOM 5 C1L CYR A 28 42.297 22.784 14.671 0.04 1.00 C +ATOM 6 C1R CYR A 28 43.155 21.661 15.303 0.04 1.00 C +ATOM 7 C2R CYR A 28 44.338 21.725 15.841 0.04 1.00 C +ATOM 8 C1 CYR A 28 42.571 20.314 15.356 0.04 1.00 C +ATOM 9 C2 CYR A 28 44.875 20.476 16.441 0.04 1.00 C +ATOM 10 NN CYR A 28 43.646 19.646 16.170 0.04 1.00 N +ATOM 11 ON CYR A 28 43.754 18.357 16.389 0.04 1.00 O +ATOM 12 C2D CYR A 28 44.860 20.447 18.016 0.04 1.00 C +ATOM 13 C1D CYR A 28 41.178 20.197 16.085 0.04 1.00 C +ATOM 14 C2A CYR A 28 46.118 19.854 15.834 0.04 1.00 C +ATOM 15 C1A CYR A 28 42.461 19.610 14.002 0.04 1.00 C +ATOM 16 C CYR A 28 38.796 26.561 12.623 0.04 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.04 1.00 O +TER +ENDMDL +MODEL 24 +ATOM 0 N CYR A 28 37.551 25.727 14.570 0.03 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.03 1.00 C +ATOM 2 CB CYR A 28 39.298 24.288 13.668 0.03 1.00 C +ATOM 3 SG CYR A 28 41.069 24.169 14.112 0.03 1.00 S +ATOM 4 S1L CYR A 28 42.022 24.457 12.340 0.03 1.00 S +ATOM 5 C1L CYR A 28 42.803 26.092 12.492 0.03 1.00 C +ATOM 6 C1R CYR A 28 44.287 26.116 12.801 0.03 1.00 C +ATOM 7 C2R CYR A 28 44.863 26.187 14.027 0.03 1.00 C +ATOM 8 C1 CYR A 28 45.330 26.080 11.685 0.03 1.00 C +ATOM 9 C2 CYR A 28 46.316 26.159 14.039 0.03 1.00 C +ATOM 10 NN CYR A 28 46.497 26.366 12.574 0.03 1.00 N +ATOM 11 ON CYR A 28 47.603 26.589 12.100 0.03 1.00 O +ATOM 12 C2D CYR A 28 46.947 24.881 14.607 0.03 1.00 C +ATOM 13 C1D CYR A 28 45.594 24.716 11.049 0.03 1.00 C +ATOM 14 C2A CYR A 28 46.746 27.318 14.969 0.03 1.00 C +ATOM 15 C1A CYR A 28 45.298 27.219 10.658 0.03 1.00 C +ATOM 16 C CYR A 28 38.758 26.583 12.609 0.03 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.03 1.00 O +TER +ENDMDL +MODEL 25 +ATOM 0 N CYR A 28 37.481 25.705 14.640 0.01 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.01 1.00 C +ATOM 2 CB CYR A 28 39.357 24.374 13.601 0.01 1.00 C +ATOM 3 SG CYR A 28 40.538 24.156 12.153 0.01 1.00 S +ATOM 4 S1L CYR A 28 40.982 22.280 12.316 0.01 1.00 S +ATOM 5 C1L CYR A 28 39.652 21.516 11.362 0.01 1.00 C +ATOM 6 C1R CYR A 28 39.711 20.008 11.313 0.01 1.00 C +ATOM 7 C2R CYR A 28 40.348 19.317 10.393 0.01 1.00 C +ATOM 8 C1 CYR A 28 39.025 19.143 12.422 0.01 1.00 C +ATOM 9 C2 CYR A 28 40.181 17.856 10.501 0.01 1.00 C +ATOM 10 NN CYR A 28 39.521 17.862 11.923 0.01 1.00 N +ATOM 11 ON CYR A 28 39.071 16.743 12.385 0.01 1.00 O +ATOM 12 C2D CYR A 28 41.532 17.149 10.595 0.01 1.00 C +ATOM 13 C1D CYR A 28 39.747 19.346 13.764 0.01 1.00 C +ATOM 14 C2A CYR A 28 39.270 17.120 9.464 0.01 1.00 C +ATOM 15 C1A CYR A 28 37.455 19.171 12.499 0.01 1.00 C +ATOM 16 C CYR A 28 38.790 26.632 12.515 0.01 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.01 1.00 O +TER +ENDMDL +MODEL 26 +ATOM 0 N CYR A 28 37.504 25.801 14.477 0.01 1.00 N +ATOM 1 CA CYR A 28 38.794 25.761 13.880 0.01 1.00 C +ATOM 2 CB CYR A 28 39.331 24.359 13.465 0.01 1.00 C +ATOM 3 SG CYR A 28 40.279 23.560 14.706 0.01 1.00 S +ATOM 4 S1L CYR A 28 39.082 21.974 15.067 0.01 1.00 S +ATOM 5 C1L CYR A 28 39.814 20.777 13.915 0.01 1.00 C +ATOM 6 C1R CYR A 28 41.169 20.345 14.373 0.01 1.00 C +ATOM 7 C2R CYR A 28 42.287 20.475 13.668 0.01 1.00 C +ATOM 8 C1 CYR A 28 41.451 19.692 15.777 0.01 1.00 C +ATOM 9 C2 CYR A 28 43.523 19.997 14.377 0.01 1.00 C +ATOM 10 NN CYR A 28 42.921 19.511 15.632 0.01 1.00 N +ATOM 11 ON CYR A 28 43.744 19.220 16.560 0.01 1.00 O +ATOM 12 C2D CYR A 28 44.454 21.237 14.492 0.01 1.00 C +ATOM 13 C1D CYR A 28 41.141 20.510 17.070 0.01 1.00 C +ATOM 14 C2A CYR A 28 44.259 18.852 13.657 0.01 1.00 C +ATOM 15 C1A CYR A 28 40.796 18.313 15.864 0.01 1.00 C +ATOM 16 C CYR A 28 38.628 26.601 12.646 0.01 1.00 C +ATOM 17 O CYR A 28 39.704 27.346 12.277 0.01 1.00 O +TER +ENDMDL +HEADER A28CYR_density +ATOM 0 NEN CYR A 28 47.208 22.730 14.048 1.00 1.00 N +ATOM 1 NEN CYR A 28 44.796 21.478 10.658 0.65 1.00 N +ATOM 2 NEN CYR A 28 46.852 22.226 12.638 0.98 1.00 N +ATOM 3 NEN CYR A 28 42.328 19.335 8.210 0.38 1.00 N +ATOM 4 NEN CYR A 28 45.368 21.658 15.660 0.73 1.00 N +ATOM 5 NEN CYR A 28 42.256 20.104 16.703 0.34 1.00 N +ATOM 6 NEN CYR A 28 43.508 22.109 19.267 0.36 1.00 N +ATOM 7 NEN CYR A 28 47.143 24.941 13.039 0.23 1.00 N +ATOM 8 NEN CYR A 28 44.841 20.439 9.207 0.36 1.00 N +ATOM 9 NEN CYR A 28 45.814 22.635 10.556 0.46 1.00 N +ATOM 10 NEN CYR A 28 45.143 23.459 18.515 0.24 1.00 N +ATOM 11 NEN CYR A 28 43.161 19.757 18.467 0.23 1.00 N +ATOM 12 NEN CYR A 28 46.114 23.883 11.462 0.25 1.00 N +ATOM 13 NEN CYR A 28 45.793 22.532 17.898 0.42 1.00 N +ATOM 14 NEN CYR A 28 43.716 20.572 16.238 0.44 1.00 N +ATOM 15 NEN CYR A 28 42.965 21.976 18.526 0.30 1.00 N +ATOM 16 NEN CYR A 28 44.193 19.754 15.990 0.23 1.00 N +ATOM 17 NEN CYR A 28 44.333 19.952 14.307 0.28 1.00 N +ATOM 18 NEN CYR A 28 45.552 22.544 18.821 0.31 1.00 N +ATOM 19 NEN CYR A 28 40.512 17.822 9.872 0.12 1.00 N +ATOM 20 NEN CYR A 28 44.549 20.366 15.736 0.37 1.00 N +ATOM 21 NEN CYR A 28 41.863 17.566 15.446 0.05 1.00 N +ATOM 22 NEN CYR A 28 41.610 22.228 17.796 0.03 1.00 N +ATOM 23 NEN CYR A 28 43.700 19.002 16.279 0.12 1.00 N +ATOM 24 NEN CYR A 28 47.050 26.478 12.337 0.02 1.00 N +ATOM 25 NEN CYR A 28 39.296 17.303 12.154 0.03 1.00 N +ATOM 26 NEN CYR A 28 43.333 19.365 16.096 0.23 1.00 N +TER diff --git a/examples/12 - Analyzing MD simulations/AR1A.pdb b/examples/12 - Analyzing MD simulations/AR1A.pdb new file mode 100644 index 00000000..0516ee0 --- /dev/null +++ b/examples/12 - Analyzing MD simulations/AR1A.pdb @@ -0,0 +1,102 @@ +TITLE MDANALYSIS FRAME 0: Created by PDBWriter +CRYST1 32.118 32.118 32.118 90.00 90.00 90.00 P 1 1 +ATOM 1 N ALA A 1 12.660 11.970 16.210 1.00 0.00 A N +ATOM 2 H ALA A 1 13.160 12.560 16.910 1.00 0.00 A H +ATOM 3 H2 ALA A 1 12.630 10.980 16.530 1.00 0.00 A H +ATOM 4 H3 ALA A 1 11.720 12.410 16.130 1.00 0.00 A H +ATOM 5 CA ALA A 1 13.400 12.080 14.860 1.00 0.00 A C +ATOM 6 HA ALA A 1 14.300 11.510 15.050 1.00 0.00 A H +ATOM 7 CB ALA A 1 12.420 11.430 13.770 1.00 0.00 A C +ATOM 8 HB1 ALA A 1 11.480 11.990 13.610 1.00 0.00 A H +ATOM 9 HB2 ALA A 1 12.270 10.410 14.180 1.00 0.00 A H +ATOM 10 HB3 ALA A 1 12.960 11.400 12.800 1.00 0.00 A H +ATOM 11 C ALA A 1 13.560 13.620 14.580 1.00 0.00 A C +ATOM 12 O ALA A 1 13.070 14.460 15.340 1.00 0.00 A O +HETATM 13 N CYR A 2 14.410 13.960 13.600 1.00 0.00 A N +HETATM 14 HN CYR A 2 14.910 13.270 13.090 1.00 0.00 A H +HETATM 15 CA CYR A 2 14.520 15.410 13.230 1.00 0.00 A C +HETATM 16 HA CYR A 2 14.880 15.990 14.070 1.00 0.00 A H +HETATM 17 CB CYR A 2 15.780 15.450 12.490 1.00 0.00 A C +HETATM 18 HB1 CYR A 2 15.660 14.740 11.640 1.00 0.00 A H +HETATM 19 HB2 CYR A 2 15.980 16.410 11.970 1.00 0.00 A H +HETATM 20 SG CYR A 2 17.350 15.030 13.310 1.00 0.00 A S +HETATM 21 S1L CYR A 2 17.420 15.990 15.120 1.00 0.00 A S +HETATM 22 C1L CYR A 2 17.980 17.660 14.690 1.00 0.00 A C +HETATM 23 H1L CYR A 2 18.360 17.790 13.650 1.00 0.00 A H +HETATM 24 H1M CYR A 2 17.020 18.200 14.550 1.00 0.00 A H +HETATM 25 C1R CYR A 2 18.750 18.380 15.800 1.00 0.00 A C +HETATM 26 C2R CYR A 2 18.320 19.400 16.570 1.00 0.00 A C +HETATM 27 H2R CYR A 2 17.280 19.750 16.590 1.00 0.00 A H +HETATM 28 C1 CYR A 2 20.080 17.920 16.000 1.00 0.00 A C +HETATM 29 C2 CYR A 2 19.430 19.890 17.350 1.00 0.00 A C +HETATM 30 NN CYR A 2 20.550 19.100 16.750 1.00 0.00 A N +HETATM 31 ON CYR A 2 21.750 19.170 17.220 1.00 0.00 A O +HETATM 32 C2D CYR A 2 19.170 19.560 18.890 1.00 0.00 A C +HETATM 33 H2D CYR A 2 19.250 18.470 19.120 1.00 0.00 A H +HETATM 34 H2E CYR A 2 20.030 20.020 19.410 1.00 0.00 A H +HETATM 35 H2F CYR A 2 18.180 20.020 19.110 1.00 0.00 A H +HETATM 36 C1D CYR A 2 20.120 16.650 16.910 1.00 0.00 A C +HETATM 37 H1D CYR A 2 21.110 16.480 17.380 1.00 0.00 A H +HETATM 38 H1E CYR A 2 19.360 16.660 17.730 1.00 0.00 A H +HETATM 39 H1F CYR A 2 19.950 15.780 16.240 1.00 0.00 A H +HETATM 40 C2A CYR A 2 19.770 21.450 17.230 1.00 0.00 A C +HETATM 41 H2A CYR A 2 19.410 21.810 16.240 1.00 0.00 A H +HETATM 42 H2B CYR A 2 19.260 21.950 18.080 1.00 0.00 A H +HETATM 43 H2C CYR A 2 20.840 21.630 17.430 1.00 0.00 A H +HETATM 44 C1A CYR A 2 20.970 17.760 14.760 1.00 0.00 A C +HETATM 45 H1A CYR A 2 20.440 17.220 13.950 1.00 0.00 A H +HETATM 46 H1B CYR A 2 21.180 18.750 14.300 1.00 0.00 A H +HETATM 47 H1C CYR A 2 21.880 17.210 15.100 1.00 0.00 A H +HETATM 48 C CYR A 2 13.310 16.140 12.590 1.00 0.00 A C +HETATM 49 O CYR A 2 12.710 15.700 11.660 1.00 0.00 A O +ATOM 50 N ALA A 3 13.010 17.380 13.110 1.00 0.00 A N +ATOM 51 H ALA A 3 13.460 17.770 13.900 1.00 0.00 A H +ATOM 52 CA ALA A 3 12.020 18.290 12.700 1.00 0.00 A C +ATOM 53 HA ALA A 3 11.030 17.860 12.550 1.00 0.00 A H +ATOM 54 CB ALA A 3 11.890 19.350 13.670 1.00 0.00 A C +ATOM 55 HB1 ALA A 3 12.930 19.710 13.800 1.00 0.00 A H +ATOM 56 HB2 ALA A 3 11.510 18.940 14.620 1.00 0.00 A H +ATOM 57 HB3 ALA A 3 11.180 20.180 13.430 1.00 0.00 A H +ATOM 58 C ALA A 3 12.320 18.950 11.290 1.00 0.00 A C +ATOM 59 O ALA A 3 11.490 18.830 10.350 1.00 0.00 A O +ATOM 60 OXT ALA A 3 13.330 19.750 11.160 1.00 0.00 A O +CONECT 11 13 +CONECT 13 11 14 15 +CONECT 14 13 +CONECT 15 13 16 17 48 +CONECT 16 15 +CONECT 17 15 18 19 20 +CONECT 18 17 +CONECT 19 17 +CONECT 20 17 21 +CONECT 21 20 22 +CONECT 22 21 23 24 25 +CONECT 23 22 +CONECT 24 22 +CONECT 25 22 26 28 +CONECT 26 25 27 29 +CONECT 27 26 +CONECT 28 25 30 36 44 +CONECT 29 26 30 32 40 +CONECT 30 28 29 31 +CONECT 31 30 +CONECT 32 29 33 34 35 +CONECT 33 32 +CONECT 34 32 +CONECT 35 32 +CONECT 36 28 37 38 39 +CONECT 37 36 +CONECT 38 36 +CONECT 39 36 +CONECT 40 29 41 42 43 +CONECT 41 40 +CONECT 42 40 +CONECT 43 40 +CONECT 44 28 45 46 47 +CONECT 45 44 +CONECT 46 44 +CONECT 47 44 +CONECT 48 15 49 50 +CONECT 49 48 +CONECT 50 48 +END diff --git a/examples/12 - Analyzing MD simulations/AR1A.xtc b/examples/12 - Analyzing MD simulations/AR1A.xtc new file mode 100644 index 00000000..8fe0849 Binary files /dev/null and b/examples/12 - Analyzing MD simulations/AR1A.xtc differ diff --git a/examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb b/examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb new file mode 100644 index 00000000..1bc4f73 --- /dev/null +++ b/examples/13 - OpenMM score function/13 - OpenMM Score Function.ipynb @@ -0,0 +1,225 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "id": "5268c516e640235d", + "metadata": {}, + "source": [ + "# OpenMM Score Function for Amino Acid Repacking\n", + "\n", + "This example demonstrates how openMM can be used with chilife to perform side chain repacking. While this example currently only works with native amino acids it will ideally lead to a set of methods to integrate with non-canonical amino acids. Because this example integrates with OpenMM it does require it as a dependency. OpenMM is best installed via cond-forge." + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "id": "ed636b7d-279b-4791-b61a-9d6298b11f6f", + "metadata": { + "jupyter": { + "is_executing": true + } + }, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "C:\\Users\\mhtes\\micromamba\\envs\\openMM\\Lib\\site-packages\\tqdm\\auto.py:21: TqdmWarning: IProgress not found. Please update jupyter and ipywidgets. See https://ipywidgets.readthedocs.io/en/stable/user_install.html\n", + " from .autonotebook import tqdm as notebook_tqdm\n" + ] + } + ], + "source": [ + "import numpy as np\n", + "from scipy.optimize import linear_sum_assignment\n", + "import matplotlib.pyplot as plt\n", + "\n", + "import chilife as xl\n", + "from tempfile import TemporaryDirectory \n", + "\n", + "from openmm import * \n", + "from openmm.app import *" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "id": "d8e356ba-e206-4fc4-a724-3fdf481c44f0", + "metadata": {}, + "outputs": [], + "source": [ + "def match_atoms(reference, subject):\n", + " \"\"\" Helper function to match openMM atoms with chilife RotamerEnsemble atoms since they will likely be in different orders and have different names. \n", + " This works by looping through all rotamers and finding atom-pair matching that minimizes the RMSD between the RotamerEnsemble atoms and the OpenMM atoms.\n", + " This operation is performed on every rotamer in the library and the best scoring pairing is used.\"\"\"\n", + " \n", + " # Initialize storage variables\n", + " dmin_score = np.inf\n", + " dmap = None\n", + " \n", + " # Loop through rotamers\n", + " for i, sub in enumerate(subject.coords):\n", + " \n", + " # Create pairwise distance metrix between atoms \n", + " diff = reference.positions[:,None, ...] - sub[None, ...]\n", + " diff = diff * diff\n", + " diff = np.sum(diff, axis=-1)\n", + " \n", + " # Identify best pairing\n", + " idx1, idx2 =linear_sum_assignment(diff)\n", + " args = [(a, b) for a, b in zip(idx1, idx2)]\n", + " score = np.sum([diff[arg] for arg in args])\n", + " \n", + " # Compare with previous best and store if necessary\n", + " if score < dmin_score:\n", + " dmap = idx2\n", + " dmin_score = score\n", + "\n", + " return dmap\n", + "\n", + "\n", + "class OpenMMEnergyFunc:\n", + " \"\"\"Score function for repacking. Note that this function uses the amber14 forcefield which does not parameterize any spin labels or most other NCAAs used by chilife. This examples uses only Natrual amino acids to demonstrate\n", + " How chiLife can be integrated with OpenMM. \"\"\"\n", + " \n", + " def __init__(self, protein):\n", + " \"\"\"This object will take in a single protein. This protein should have all atoms present (including hydrogen atoms) with no heterogens or other abnormalities. A structure like this can be prepared with something like PDBFixer.\n", + " For each site the structure should already be mutated to the appropriate amino acid you wish to model. This can be done using the ``xl.mutate`` function. During construction an OpenMM.Simulation object will be created \n", + " which can be re-used for all RotamerEnsembles being attached to this protein\"\"\"\n", + " \n", + " protein = protein.atoms\n", + " self.protein = protein\n", + " \n", + " # Write protein to temporary file to load in with OpenMM PDBFile for quick and easy topology and parameterization \n", + " with TemporaryDirectory() as tempdir:\n", + " xl.save(f'{tempdir}/tmp.pdb', protein)\n", + " pdb = PDBFile(f'{tempdir}/tmp.pdb')\n", + " \n", + " # Use Amber14 forcefield with GBN2 implicit solvent model\n", + " ff = ForceField('amber14-all.xml', 'implicit/gbn2.xml')\n", + " \n", + " # Use only non-bonded forces since bonded forces of the protein will not change and bonded forces of the rotamers should be accounted for in the library.\n", + " ff._forces = [force for force in ff._forces if isinstance(force, forcefield.NonbondedGenerator)]\n", + " \n", + " # Create and store simulation object for energy calculations \n", + " omm_system = ff.createSystem(pdb.topology, nonbondedMethod=CutoffNonPeriodic, nonbondedCutoff=1.0*unit.nanometer)\n", + " integrator = LangevinMiddleIntegrator(300*unit.kelvin, 1/unit.picosecond, 0.004*unit.picoseconds)\n", + " self.simulation = Simulation(pdb.topology, omm_system, integrator)\n", + " \n", + " \n", + "\n", + " def prepare_system(self, system):\n", + "\n", + " # Identify and store system indices that correspond to the rotamer ensemble\n", + " psel = self.protein.select_atoms(system.selstr)\n", + " system.efunc_protein_ix = psel.ix\n", + " system.efunc_residue_ix = match_atoms(psel, system)\n", + " \n", + "\n", + " def __call__(self, system, **kwargs):\n", + " \"\"\"Only requirement for a chilife energy function is to accept a ``system`` and return an energy score in kcal/mol for each rotamer in that system.\"\"\"\n", + " if not hasattr(system, 'efunc_protein_ix'):\n", + " self.prepare_system(system)\n", + " \n", + " pose_start = self.protein.positions\n", + "\n", + " Es = []\n", + " for rot in system.coords:\n", + " pose_start[system.efunc_protein_ix] = rot[system.efunc_residue_ix]\n", + " self.simulation.context.setPositions(pose_start * unit.angstrom)\n", + " energy = self.simulation.context.getState(getEnergy=True).getPotentialEnergy().value_in_unit(unit.kilocalorie_per_mole)\n", + " Es.append(energy)\n", + "\n", + " Es = np.array(Es)\n", + " return Es" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "id": "c9aea64b-854f-4c59-a2d8-9829d0240c5d", + "metadata": { + "jupyter": { + "is_executing": true + } + }, + "outputs": [], + "source": [ + "# Load in protein object\n", + "protein = xl.load_protein('system.pdb')\n", + "\n", + "# Create Energy function unique to this protein\n", + "omm_efunc = OpenMMEnergyFunc(protein)\n", + "\n", + "# Create a rotamer ensemble of at lysine 48 using ORS and the new energy function\n", + "RL = xl.RotamerEnsemble('LYS', 48, protein, sample=5000, use_H=True, energy_func=omm_efunc)\n" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "id": "62b989eea42a5268", + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "100%|████████████████████████████████████████████████████████████████████████████████| 200/200 [00:03<00:00, 52.54it/s]\n" + ] + } + ], + "source": [ + "# Perform repacking around the new rotamer library using the same energy function\n", + "traj, de = xl.repack(protein, RL, energy_func=omm_efunc) " + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "id": "2edc61a5-991a-4c99-97f9-accd78424d13", + "metadata": {}, + "outputs": [ + { + "data": { + "image/png": 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", + "text/plain": [ + "
" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "fig, ax = plt.subplots()\n", + "ax.plot(np.cumsum(de))\n", + "\n", + "ax.set_xlabel('Step')\n", + "ax.set_ylabel('Change in energy (kcal/mol)')\n", + "plt.show()" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "openMM", + "language": "python", + "name": "zz_openmm" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 3 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython3", + "version": "3.11.7" + } + }, + "nbformat": 4, + "nbformat_minor": 5 +} diff --git a/examples/13 - OpenMM score function/system.pdb b/examples/13 - OpenMM score function/system.pdb new file mode 100644 index 00000000..08ab1dd --- /dev/null +++ b/examples/13 - OpenMM score function/system.pdb @@ -0,0 +1,1234 @@ +REMARK 1 CREATED WITH OPENMM 8.2, 2025-02-14 +ATOM 1 N MET A 1 27.340 24.430 2.614 1.00 0.00 N +ATOM 2 H MET A 1 27.334 24.273 1.417 1.00 0.00 H +ATOM 3 H2 MET A 1 27.062 23.301 2.907 1.00 0.00 H +ATOM 4 H3 MET A 1 28.520 24.587 2.714 1.00 0.00 H +ATOM 5 CA MET A 1 26.266 25.413 2.842 1.00 0.00 C +ATOM 6 HA MET A 1 26.052 25.842 1.746 1.00 0.00 H +ATOM 7 C MET A 1 26.913 26.639 3.531 1.00 0.00 C +ATOM 8 O MET A 1 27.886 26.463 4.263 1.00 0.00 O +ATOM 9 CB MET A 1 25.112 24.880 3.649 1.00 0.00 C +ATOM 10 HB2 MET A 1 24.756 23.715 3.625 1.00 0.00 H +ATOM 11 HB3 MET A 1 24.327 25.248 2.803 1.00 0.00 H +ATOM 12 CG MET A 1 25.353 24.860 5.134 1.00 0.00 C +ATOM 13 HG2 MET A 1 26.074 23.978 5.455 1.00 0.00 H +ATOM 14 HG3 MET A 1 25.220 25.971 5.523 1.00 0.00 H +ATOM 15 SD MET A 1 23.930 23.959 5.904 1.00 0.00 S +ATOM 16 CE MET A 1 24.447 23.984 7.620 1.00 0.00 C +ATOM 17 HE1 MET A 1 25.223 23.087 7.705 1.00 0.00 H +ATOM 18 HE2 MET A 1 24.829 24.957 8.183 1.00 0.00 H +ATOM 19 HE3 MET A 1 23.328 23.672 7.881 1.00 0.00 H +ATOM 20 N GLN A 2 26.335 27.770 3.258 1.00 0.00 N +ATOM 21 H GLN A 2 25.459 27.967 2.476 1.00 0.00 H +ATOM 22 CA GLN A 2 26.850 29.021 3.898 1.00 0.00 C +ATOM 23 HA GLN A 2 28.028 28.875 3.896 1.00 0.00 H +ATOM 24 C GLN A 2 26.100 29.253 5.202 1.00 0.00 C +ATOM 25 O GLN A 2 24.865 29.024 5.330 1.00 0.00 O +ATOM 26 CB GLN A 2 26.733 30.148 2.905 1.00 0.00 C +ATOM 27 HB2 GLN A 2 27.482 30.061 1.972 1.00 0.00 H +ATOM 28 HB3 GLN A 2 25.686 30.133 2.327 1.00 0.00 H +ATOM 29 CG GLN A 2 26.882 31.546 3.409 1.00 0.00 C +ATOM 30 HG2 GLN A 2 26.114 32.013 4.190 1.00 0.00 H +ATOM 31 HG3 GLN A 2 28.008 31.737 3.747 1.00 0.00 H +ATOM 32 CD GLN A 2 26.786 32.562 2.270 1.00 0.00 C +ATOM 33 OE1 GLN A 2 27.783 33.160 1.870 1.00 0.00 O +ATOM 34 NE2 GLN A 2 25.562 32.733 1.806 1.00 0.00 N +ATOM 35 HE21 GLN A 2 24.554 33.310 2.072 1.00 0.00 H +ATOM 36 HE22 GLN A 2 25.554 32.810 0.611 1.00 0.00 H +ATOM 37 N ILE A 3 26.849 29.656 6.217 1.00 0.00 N +ATOM 38 H ILE A 3 27.891 30.092 5.880 1.00 0.00 H +ATOM 39 CA ILE A 3 26.235 30.058 7.497 1.00 0.00 C +ATOM 40 HA ILE A 3 25.157 30.484 7.237 1.00 0.00 H +ATOM 41 C ILE A 3 26.882 31.428 7.862 1.00 0.00 C +ATOM 42 O ILE A 3 27.906 31.711 7.264 1.00 0.00 O +ATOM 43 CB ILE A 3 26.344 29.050 8.645 1.00 0.00 C +ATOM 44 HB ILE A 3 25.744 29.373 9.618 1.00 0.00 H +ATOM 45 CG1 ILE A 3 27.810 28.748 8.999 1.00 0.00 C +ATOM 46 HG12 ILE A 3 28.366 29.785 9.203 1.00 0.00 H +ATOM 47 HG13 ILE A 3 28.491 28.240 8.168 1.00 0.00 H +ATOM 48 CG2 ILE A 3 25.491 27.771 8.287 1.00 0.00 C +ATOM 49 HG21 ILE A 3 25.240 27.143 9.268 1.00 0.00 H +ATOM 50 HG22 ILE A 3 26.108 27.117 7.506 1.00 0.00 H +ATOM 51 HG23 ILE A 3 24.443 27.967 7.752 1.00 0.00 H +ATOM 52 CD1 ILE A 3 27.967 28.087 10.417 1.00 0.00 C +ATOM 53 HD11 ILE A 3 28.468 28.932 11.098 1.00 0.00 H +ATOM 54 HD12 ILE A 3 26.965 27.699 10.936 1.00 0.00 H +ATOM 55 HD13 ILE A 3 28.690 27.141 10.496 1.00 0.00 H +ATOM 56 N PHE A 4 26.214 32.097 8.771 1.00 0.00 N +ATOM 57 H PHE A 4 25.689 31.580 9.695 1.00 0.00 H +ATOM 58 CA PHE A 4 26.772 33.436 9.197 1.00 0.00 C +ATOM 59 HA PHE A 4 27.670 33.811 8.519 1.00 0.00 H +ATOM 60 C PHE A 4 27.151 33.362 10.650 1.00 0.00 C +ATOM 61 O PHE A 4 26.350 32.778 11.395 1.00 0.00 O +ATOM 62 CB PHE A 4 25.695 34.498 8.946 1.00 0.00 C +ATOM 63 HB2 PHE A 4 26.117 35.569 9.241 1.00 0.00 H +ATOM 64 HB3 PHE A 4 24.629 34.521 9.479 1.00 0.00 H +ATOM 65 CG PHE A 4 25.288 34.609 7.499 1.00 0.00 C +ATOM 66 CD1 PHE A 4 24.147 33.966 7.038 1.00 0.00 C +ATOM 67 HD1 PHE A 4 23.164 34.020 7.705 1.00 0.00 H +ATOM 68 CD2 PHE A 4 26.136 35.346 6.640 1.00 0.00 C +ATOM 69 HD2 PHE A 4 26.253 36.520 6.842 1.00 0.00 H +ATOM 70 CE1 PHE A 4 23.812 34.031 5.677 1.00 0.00 C +ATOM 71 HE1 PHE A 4 22.694 34.372 5.458 1.00 0.00 H +ATOM 72 CE2 PHE A 4 25.810 35.392 5.267 1.00 0.00 C +ATOM 73 HE2 PHE A 4 26.048 36.320 4.560 1.00 0.00 H +ATOM 74 CZ PHE A 4 24.620 34.778 4.853 1.00 0.00 C +ATOM 75 HZ PHE A 4 24.112 35.279 3.901 1.00 0.00 H +ATOM 76 N VAL A 5 28.260 33.943 11.096 1.00 0.00 N +ATOM 77 H VAL A 5 28.799 34.817 10.504 1.00 0.00 H +ATOM 78 CA VAL A 5 28.605 33.965 12.503 1.00 0.00 C +ATOM 79 HA VAL A 5 27.829 33.378 13.179 1.00 0.00 H +ATOM 80 C VAL A 5 28.638 35.461 12.900 1.00 0.00 C +ATOM 81 O VAL A 5 29.522 36.103 12.320 1.00 0.00 O +ATOM 82 CB VAL A 5 29.963 33.317 12.814 1.00 0.00 C +ATOM 83 HB VAL A 5 30.906 33.846 12.317 1.00 0.00 H +ATOM 84 CG1 VAL A 5 30.211 33.394 14.304 1.00 0.00 C +ATOM 85 HG11 VAL A 5 29.285 33.625 15.018 1.00 0.00 H +ATOM 86 HG12 VAL A 5 31.041 34.244 14.444 1.00 0.00 H +ATOM 87 HG13 VAL A 5 30.656 32.347 14.666 1.00 0.00 H +ATOM 88 CG2 VAL A 5 29.957 31.838 12.352 1.00 0.00 C +ATOM 89 HG21 VAL A 5 31.065 31.809 11.911 1.00 0.00 H +ATOM 90 HG22 VAL A 5 29.226 31.645 11.428 1.00 0.00 H +ATOM 91 HG23 VAL A 5 29.762 30.942 13.114 1.00 0.00 H +ATOM 92 N LYS A 6 27.751 35.867 13.740 1.00 0.00 N +ATOM 93 H LYS A 6 27.464 35.268 14.716 1.00 0.00 H +ATOM 94 CA LYS A 6 27.691 37.315 14.143 1.00 0.00 C +ATOM 95 HA LYS A 6 27.997 38.108 13.314 1.00 0.00 H +ATOM 96 C LYS A 6 28.469 37.475 15.420 1.00 0.00 C +ATOM 97 O LYS A 6 28.213 36.753 16.411 1.00 0.00 O +ATOM 98 CB LYS A 6 26.219 37.684 14.307 1.00 0.00 C +ATOM 99 HB2 LYS A 6 25.661 36.988 15.097 1.00 0.00 H +ATOM 100 HB3 LYS A 6 25.715 37.566 13.228 1.00 0.00 H +ATOM 101 CG LYS A 6 25.884 39.139 14.615 1.00 0.00 C +ATOM 102 HG2 LYS A 6 26.212 39.529 15.695 1.00 0.00 H +ATOM 103 HG3 LYS A 6 26.245 39.965 13.834 1.00 0.00 H +ATOM 104 CD LYS A 6 24.348 39.296 14.642 1.00 0.00 C +ATOM 105 HD2 LYS A 6 23.868 38.833 15.635 1.00 0.00 H +ATOM 106 HD3 LYS A 6 23.776 38.828 13.702 1.00 0.00 H +ATOM 107 CE LYS A 6 23.865 40.723 14.749 1.00 0.00 C +ATOM 108 HE2 LYS A 6 23.839 41.415 13.759 1.00 0.00 H +ATOM 109 HE3 LYS A 6 24.381 41.301 15.682 1.00 0.00 H +ATOM 110 NZ LYS A 6 22.375 40.720 14.907 1.00 0.00 N +ATOM 111 HZ1 LYS A 6 21.985 41.826 15.172 1.00 0.00 H +ATOM 112 HZ2 LYS A 6 21.794 40.031 15.696 1.00 0.00 H +ATOM 113 HZ3 LYS A 6 21.810 40.503 13.871 1.00 0.00 H +ATOM 114 N THR A 7 29.426 38.430 15.446 1.00 0.00 N +ATOM 115 H THR A 7 29.076 39.436 14.930 1.00 0.00 H +ATOM 116 CA THR A 7 30.225 38.643 16.662 1.00 0.00 C +ATOM 117 HA THR A 7 30.057 37.815 17.496 1.00 0.00 H +ATOM 118 C THR A 7 29.664 39.839 17.434 1.00 0.00 C +ATOM 119 O THR A 7 28.850 40.565 16.859 1.00 0.00 O +ATOM 120 CB THR A 7 31.744 38.879 16.299 1.00 0.00 C +ATOM 121 HB THR A 7 32.501 38.817 17.222 1.00 0.00 H +ATOM 122 OG1 THR A 7 31.737 40.257 15.824 1.00 0.00 O +ATOM 123 HG1 THR A 7 32.821 40.753 15.861 1.00 0.00 H +ATOM 124 CG2 THR A 7 32.260 37.969 15.171 1.00 0.00 C +ATOM 125 HG21 THR A 7 32.170 37.927 13.968 1.00 0.00 H +ATOM 126 HG22 THR A 7 31.856 36.936 15.614 1.00 0.00 H +ATOM 127 HG23 THR A 7 33.442 38.143 15.328 1.00 0.00 H +ATOM 128 N LEU A 8 30.132 40.069 18.642 1.00 0.00 N +ATOM 129 H LEU A 8 31.036 39.485 19.146 1.00 0.00 H +ATOM 130 CA LEU A 8 29.607 41.180 19.467 1.00 0.00 C +ATOM 131 HA LEU A 8 28.460 41.422 19.254 1.00 0.00 H +ATOM 132 C LEU A 8 30.075 42.538 18.984 1.00 0.00 C +ATOM 133 O LEU A 8 29.586 43.570 19.483 1.00 0.00 O +ATOM 134 CB LEU A 8 29.919 40.890 20.938 1.00 0.00 C +ATOM 135 HB2 LEU A 8 29.551 41.889 21.487 1.00 0.00 H +ATOM 136 HB3 LEU A 8 31.080 40.846 21.221 1.00 0.00 H +ATOM 137 CG LEU A 8 29.183 39.722 21.581 1.00 0.00 C +ATOM 138 HG LEU A 8 29.657 38.707 21.190 1.00 0.00 H +ATOM 139 CD1 LEU A 8 29.308 39.750 23.095 1.00 0.00 C +ATOM 140 HD11 LEU A 8 30.404 39.437 23.462 1.00 0.00 H +ATOM 141 HD12 LEU A 8 28.500 39.141 23.737 1.00 0.00 H +ATOM 142 HD13 LEU A 8 29.182 40.844 23.577 1.00 0.00 H +ATOM 143 CD2 LEU A 8 27.700 39.721 21.228 1.00 0.00 C +ATOM 144 HD21 LEU A 8 27.241 38.624 21.384 1.00 0.00 H +ATOM 145 HD22 LEU A 8 27.138 40.001 20.207 1.00 0.00 H +ATOM 146 HD23 LEU A 8 27.098 40.377 22.035 1.00 0.00 H +ATOM 147 N THR A 9 30.991 42.571 17.998 1.00 0.00 N +ATOM 148 H THR A 9 31.868 41.771 18.083 1.00 0.00 H +ATOM 149 CA THR A 9 31.422 43.940 17.553 1.00 0.00 C +ATOM 150 HA THR A 9 31.210 44.894 18.239 1.00 0.00 H +ATOM 151 C THR A 9 30.755 44.351 16.277 1.00 0.00 C +ATOM 152 O THR A 9 31.207 45.268 15.566 1.00 0.00 O +ATOM 153 CB THR A 9 32.979 43.918 17.445 1.00 0.00 C +ATOM 154 HB THR A 9 33.428 45.006 17.237 1.00 0.00 H +ATOM 155 OG1 THR A 9 33.174 43.067 16.265 1.00 0.00 O +ATOM 156 HG1 THR A 9 34.243 43.203 15.742 1.00 0.00 H +ATOM 157 CG2 THR A 9 33.657 43.319 18.672 1.00 0.00 C +ATOM 158 HG21 THR A 9 33.155 43.351 19.759 1.00 0.00 H +ATOM 159 HG22 THR A 9 34.564 44.099 18.816 1.00 0.00 H +ATOM 160 HG23 THR A 9 34.274 42.293 18.602 1.00 0.00 H +ATOM 161 N GLY A 10 29.721 43.673 15.885 1.00 0.00 N +ATOM 162 H GLY A 10 28.836 43.566 16.678 1.00 0.00 H +ATOM 163 CA GLY A 10 28.978 43.960 14.678 1.00 0.00 C +ATOM 164 HA2 GLY A 10 27.880 43.518 14.533 1.00 0.00 H +ATOM 165 HA3 GLY A 10 28.832 45.147 14.646 1.00 0.00 H +ATOM 166 C GLY A 10 29.604 43.507 13.393 1.00 0.00 C +ATOM 167 O GLY A 10 29.219 43.981 12.301 1.00 0.00 O +ATOM 168 N LYS A 11 30.563 42.623 13.495 1.00 0.00 N +ATOM 169 H LYS A 11 31.326 42.785 14.385 1.00 0.00 H +ATOM 170 CA LYS A 11 31.191 42.012 12.331 1.00 0.00 C +ATOM 171 HA LYS A 11 31.109 42.825 11.462 1.00 0.00 H +ATOM 172 C LYS A 11 30.459 40.666 12.130 1.00 0.00 C +ATOM 173 O LYS A 11 30.253 39.991 13.133 1.00 0.00 O +ATOM 174 CB LYS A 11 32.672 41.717 12.505 1.00 0.00 C +ATOM 175 HB2 LYS A 11 33.017 41.032 13.415 1.00 0.00 H +ATOM 176 HB3 LYS A 11 33.201 42.782 12.642 1.00 0.00 H +ATOM 177 CG LYS A 11 33.280 41.086 11.227 1.00 0.00 C +ATOM 178 HG2 LYS A 11 33.154 41.912 10.374 1.00 0.00 H +ATOM 179 HG3 LYS A 11 32.824 40.045 10.878 1.00 0.00 H +ATOM 180 CD LYS A 11 34.762 40.799 11.470 1.00 0.00 C +ATOM 181 HD2 LYS A 11 35.324 41.606 12.153 1.00 0.00 H +ATOM 182 HD3 LYS A 11 34.971 39.781 12.059 1.00 0.00 H +ATOM 183 CE LYS A 11 35.614 40.847 10.240 1.00 0.00 C +ATOM 184 HE2 LYS A 11 35.682 41.996 9.900 1.00 0.00 H +ATOM 185 HE3 LYS A 11 36.769 40.598 10.429 1.00 0.00 H +ATOM 186 NZ LYS A 11 35.100 40.073 9.101 1.00 0.00 N +ATOM 187 HZ1 LYS A 11 33.992 40.151 8.654 1.00 0.00 H +ATOM 188 HZ2 LYS A 11 35.730 40.581 8.208 1.00 0.00 H +ATOM 189 HZ3 LYS A 11 35.385 38.920 8.989 1.00 0.00 H +ATOM 190 N THR A 12 30.163 40.338 10.886 1.00 0.00 N +ATOM 191 H THR A 12 30.110 41.130 9.999 1.00 0.00 H +ATOM 192 CA THR A 12 29.542 39.020 10.653 1.00 0.00 C +ATOM 193 HA THR A 12 29.491 38.458 11.692 1.00 0.00 H +ATOM 194 C THR A 12 30.494 38.261 9.729 1.00 0.00 C +ATOM 195 O THR A 12 30.849 38.850 8.706 1.00 0.00 O +ATOM 196 CB THR A 12 28.113 39.049 10.015 1.00 0.00 C +ATOM 197 HB THR A 12 27.977 39.723 9.037 1.00 0.00 H +ATOM 198 OG1 THR A 12 27.280 39.722 10.996 1.00 0.00 O +ATOM 199 HG1 THR A 12 27.216 40.931 10.863 1.00 0.00 H +ATOM 200 CG2 THR A 12 27.588 37.635 9.715 1.00 0.00 C +ATOM 201 HG21 THR A 12 27.489 36.889 10.630 1.00 0.00 H +ATOM 202 HG22 THR A 12 26.457 37.954 9.459 1.00 0.00 H +ATOM 203 HG23 THR A 12 28.118 37.311 8.694 1.00 0.00 H +ATOM 204 N ILE A 13 30.795 37.015 10.095 1.00 0.00 N +ATOM 205 H ILE A 13 30.867 36.558 11.175 1.00 0.00 H +ATOM 206 CA ILE A 13 31.720 36.289 9.176 1.00 0.00 C +ATOM 207 HA ILE A 13 32.061 37.015 8.292 1.00 0.00 H +ATOM 208 C ILE A 13 30.955 35.211 8.459 1.00 0.00 C +ATOM 209 O ILE A 13 30.025 34.618 9.040 1.00 0.00 O +ATOM 210 CB ILE A 13 32.995 35.883 9.934 1.00 0.00 C +ATOM 211 HB ILE A 13 33.863 36.482 9.373 1.00 0.00 H +ATOM 212 CG1 ILE A 13 33.306 34.381 9.840 1.00 0.00 C +ATOM 213 HG12 ILE A 13 33.235 34.146 8.681 1.00 0.00 H +ATOM 214 HG13 ILE A 13 32.420 33.755 10.327 1.00 0.00 H +ATOM 215 CG2 ILE A 13 33.109 36.381 11.435 1.00 0.00 C +ATOM 216 HG21 ILE A 13 32.878 35.656 12.357 1.00 0.00 H +ATOM 217 HG22 ILE A 13 34.258 36.668 11.604 1.00 0.00 H +ATOM 218 HG23 ILE A 13 32.761 37.513 11.600 1.00 0.00 H +ATOM 219 CD1 ILE A 13 34.535 34.028 10.720 1.00 0.00 C +ATOM 220 HD11 ILE A 13 34.467 32.833 10.732 1.00 0.00 H +ATOM 221 HD12 ILE A 13 35.393 34.556 10.070 1.00 0.00 H +ATOM 222 HD13 ILE A 13 34.674 34.251 11.886 1.00 0.00 H +ATOM 223 N THR A 14 31.244 34.986 7.197 1.00 0.00 N +ATOM 224 H THR A 14 32.125 35.478 6.568 1.00 0.00 H +ATOM 225 CA THR A 14 30.505 33.884 6.512 1.00 0.00 C +ATOM 226 HA THR A 14 29.385 33.779 6.878 1.00 0.00 H +ATOM 227 C THR A 14 31.409 32.680 6.446 1.00 0.00 C +ATOM 228 O THR A 14 32.619 32.812 6.125 1.00 0.00 O +ATOM 229 CB THR A 14 30.091 34.393 5.078 1.00 0.00 C +ATOM 230 HB THR A 14 29.690 33.676 4.217 1.00 0.00 H +ATOM 231 OG1 THR A 14 31.440 34.513 4.487 1.00 0.00 O +ATOM 232 HG1 THR A 14 31.600 35.475 3.774 1.00 0.00 H +ATOM 233 CG2 THR A 14 29.420 35.756 5.119 1.00 0.00 C +ATOM 234 HG21 THR A 14 28.275 35.721 5.444 1.00 0.00 H +ATOM 235 HG22 THR A 14 29.863 36.776 5.554 1.00 0.00 H +ATOM 236 HG23 THR A 14 29.310 36.033 3.954 1.00 0.00 H +ATOM 237 N LEU A 15 30.884 31.485 6.666 1.00 0.00 N +ATOM 238 H LEU A 15 29.730 31.442 6.889 1.00 0.00 H +ATOM 239 CA LEU A 15 31.677 30.275 6.639 1.00 0.00 C +ATOM 240 HA LEU A 15 32.701 30.541 6.095 1.00 0.00 H +ATOM 241 C LEU A 15 31.022 29.288 5.665 1.00 0.00 C +ATOM 242 O LEU A 15 29.809 29.395 5.545 1.00 0.00 O +ATOM 243 CB LEU A 15 31.562 29.686 8.045 1.00 0.00 C +ATOM 244 HB2 LEU A 15 30.995 30.554 8.635 1.00 0.00 H +ATOM 245 HB3 LEU A 15 31.005 28.661 7.882 1.00 0.00 H +ATOM 246 CG LEU A 15 32.631 29.444 9.060 1.00 0.00 C +ATOM 247 HG LEU A 15 33.280 28.477 8.783 1.00 0.00 H +ATOM 248 CD1 LEU A 15 33.814 30.390 9.030 1.00 0.00 C +ATOM 249 HD11 LEU A 15 34.609 30.367 9.917 1.00 0.00 H +ATOM 250 HD12 LEU A 15 33.505 31.521 8.816 1.00 0.00 H +ATOM 251 HD13 LEU A 15 34.463 30.096 8.063 1.00 0.00 H +ATOM 252 CD2 LEU A 15 31.945 29.449 10.436 1.00 0.00 C +ATOM 253 HD21 LEU A 15 32.172 28.310 10.724 1.00 0.00 H +ATOM 254 HD22 LEU A 15 32.561 30.177 11.147 1.00 0.00 H +ATOM 255 HD23 LEU A 15 30.767 29.577 10.583 1.00 0.00 H +ATOM 256 N GLU A 16 31.834 28.412 5.125 1.00 0.00 N +ATOM 257 H GLU A 16 33.008 28.538 4.980 1.00 0.00 H +ATOM 258 CA GLU A 16 31.220 27.341 4.275 1.00 0.00 C +ATOM 259 HA GLU A 16 30.107 27.565 3.928 1.00 0.00 H +ATOM 260 C GLU A 16 31.440 26.079 5.080 1.00 0.00 C +ATOM 261 O GLU A 16 32.576 25.802 5.461 1.00 0.00 O +ATOM 262 CB GLU A 16 31.827 27.262 2.894 1.00 0.00 C +ATOM 263 HB2 GLU A 16 31.503 26.278 2.293 1.00 0.00 H +ATOM 264 HB3 GLU A 16 33.020 27.223 2.835 1.00 0.00 H +ATOM 265 CG GLU A 16 31.363 28.410 1.962 1.00 0.00 C +ATOM 266 HG2 GLU A 16 30.194 28.620 1.851 1.00 0.00 H +ATOM 267 HG3 GLU A 16 31.925 29.434 2.219 1.00 0.00 H +ATOM 268 CD GLU A 16 31.671 28.291 0.498 1.00 0.00 C +ATOM 269 OE1 GLU A 16 30.869 28.621 -0.366 1.00 0.00 O +ATOM 270 OE2 GLU A 16 32.835 27.861 0.278 1.00 0.00 O +ATOM 271 N VAL A 17 30.310 25.458 5.384 1.00 0.00 N +ATOM 272 H VAL A 17 29.428 26.225 5.543 1.00 0.00 H +ATOM 273 CA VAL A 17 30.288 24.245 6.193 1.00 0.00 C +ATOM 274 HA VAL A 17 31.294 23.735 5.807 1.00 0.00 H +ATOM 275 C VAL A 17 29.279 23.227 5.641 1.00 0.00 C +ATOM 276 O VAL A 17 28.478 23.522 4.725 1.00 0.00 O +ATOM 277 CB VAL A 17 29.903 24.590 7.665 1.00 0.00 C +ATOM 278 HB VAL A 17 29.998 23.537 8.208 1.00 0.00 H +ATOM 279 CG1 VAL A 17 30.862 25.496 8.389 1.00 0.00 C +ATOM 280 HG11 VAL A 17 31.483 24.754 9.097 1.00 0.00 H +ATOM 281 HG12 VAL A 17 31.612 25.993 7.608 1.00 0.00 H +ATOM 282 HG13 VAL A 17 30.425 26.358 9.090 1.00 0.00 H +ATOM 283 CG2 VAL A 17 28.476 25.135 7.705 1.00 0.00 C +ATOM 284 HG21 VAL A 17 27.726 24.263 7.370 1.00 0.00 H +ATOM 285 HG22 VAL A 17 28.170 25.424 8.823 1.00 0.00 H +ATOM 286 HG23 VAL A 17 28.161 26.062 7.029 1.00 0.00 H +ATOM 287 N GLU A 18 29.380 22.057 6.232 1.00 0.00 N +ATOM 288 H GLU A 18 30.513 21.679 6.290 1.00 0.00 H +ATOM 289 CA GLU A 18 28.468 20.940 5.980 1.00 0.00 C +ATOM 290 HA GLU A 18 27.784 21.326 5.090 1.00 0.00 H +ATOM 291 C GLU A 18 27.819 20.609 7.316 1.00 0.00 C +ATOM 292 O GLU A 18 28.449 20.674 8.360 1.00 0.00 O +ATOM 293 CB GLU A 18 29.213 19.697 5.506 1.00 0.00 C +ATOM 294 HB2 GLU A 18 28.530 18.760 5.250 1.00 0.00 H +ATOM 295 HB3 GLU A 18 30.106 19.330 6.213 1.00 0.00 H +ATOM 296 CG GLU A 18 29.728 19.755 4.060 1.00 0.00 C +ATOM 297 HG2 GLU A 18 30.731 20.385 3.881 1.00 0.00 H +ATOM 298 HG3 GLU A 18 30.138 18.680 3.732 1.00 0.00 H +ATOM 299 CD GLU A 18 28.754 20.061 2.978 1.00 0.00 C +ATOM 300 OE1 GLU A 18 27.546 19.992 2.985 1.00 0.00 O +ATOM 301 OE2 GLU A 18 29.336 20.423 1.904 1.00 0.00 O +ATOM 302 N PRO A 19 26.559 20.220 7.288 1.00 0.00 N +ATOM 303 CA PRO A 19 25.829 19.825 8.494 1.00 0.00 C +ATOM 304 HA PRO A 19 25.425 20.811 9.011 1.00 0.00 H +ATOM 305 C PRO A 19 26.541 18.732 9.251 1.00 0.00 C +ATOM 306 O PRO A 19 26.333 18.536 10.457 1.00 0.00 O +ATOM 307 CB PRO A 19 24.469 19.332 7.952 1.00 0.00 C +ATOM 308 HB2 PRO A 19 24.345 18.180 7.625 1.00 0.00 H +ATOM 309 HB3 PRO A 19 23.601 19.590 8.766 1.00 0.00 H +ATOM 310 CG PRO A 19 24.299 20.134 6.704 1.00 0.00 C +ATOM 311 HG2 PRO A 19 23.575 21.068 6.877 1.00 0.00 H +ATOM 312 HG3 PRO A 19 23.613 19.598 5.875 1.00 0.00 H +ATOM 313 CD PRO A 19 25.714 20.108 6.073 1.00 0.00 C +ATOM 314 HD2 PRO A 19 25.537 20.883 5.182 1.00 0.00 H +ATOM 315 HD3 PRO A 19 25.863 19.098 5.452 1.00 0.00 H +ATOM 316 N SER A 20 27.361 17.959 8.559 1.00 0.00 N +ATOM 317 H SER A 20 26.815 17.533 7.585 1.00 0.00 H +ATOM 318 CA SER A 20 28.054 16.835 9.210 1.00 0.00 C +ATOM 319 HA SER A 20 27.357 16.143 9.886 1.00 0.00 H +ATOM 320 C SER A 20 29.258 17.318 9.984 1.00 0.00 C +ATOM 321 O SER A 20 29.930 16.477 10.606 1.00 0.00 O +ATOM 322 CB SER A 20 28.523 15.820 8.182 1.00 0.00 C +ATOM 323 HB2 SER A 20 29.260 14.981 8.613 1.00 0.00 H +ATOM 324 HB3 SER A 20 27.655 15.135 7.716 1.00 0.00 H +ATOM 325 OG SER A 20 28.946 16.445 6.967 1.00 0.00 O +ATOM 326 HG SER A 20 29.988 16.018 6.577 1.00 0.00 H +ATOM 327 N ASP A 21 29.599 18.599 9.828 1.00 0.00 N +ATOM 328 H ASP A 21 28.754 19.363 10.134 1.00 0.00 H +ATOM 329 CA ASP A 21 30.796 19.083 10.566 1.00 0.00 C +ATOM 330 HA ASP A 21 31.631 18.287 10.261 1.00 0.00 H +ATOM 331 C ASP A 21 30.491 19.162 12.040 1.00 0.00 C +ATOM 332 O ASP A 21 29.367 19.523 12.441 1.00 0.00 O +ATOM 333 CB ASP A 21 31.155 20.515 10.048 1.00 0.00 C +ATOM 334 HB2 ASP A 21 31.942 20.921 10.838 1.00 0.00 H +ATOM 335 HB3 ASP A 21 30.353 21.371 9.865 1.00 0.00 H +ATOM 336 CG ASP A 21 31.923 20.436 8.755 1.00 0.00 C +ATOM 337 OD1 ASP A 21 32.493 19.374 8.456 1.00 0.00 O +ATOM 338 OD2 ASP A 21 31.838 21.402 7.968 1.00 0.00 O +ATOM 339 N THR A 22 31.510 18.936 12.852 1.00 0.00 N +ATOM 340 H THR A 22 32.390 18.279 12.396 1.00 0.00 H +ATOM 341 CA THR A 22 31.398 19.064 14.286 1.00 0.00 C +ATOM 342 HA THR A 22 30.550 18.291 14.568 1.00 0.00 H +ATOM 343 C THR A 22 31.593 20.553 14.655 1.00 0.00 C +ATOM 344 O THR A 22 32.159 21.311 13.861 1.00 0.00 O +ATOM 345 CB THR A 22 32.492 18.193 14.995 1.00 0.00 C +ATOM 346 HB THR A 22 32.721 18.092 16.162 1.00 0.00 H +ATOM 347 OG1 THR A 22 33.778 18.739 14.516 1.00 0.00 O +ATOM 348 HG1 THR A 22 34.659 17.943 14.517 1.00 0.00 H +ATOM 349 CG2 THR A 22 32.352 16.700 14.630 1.00 0.00 C +ATOM 350 HG21 THR A 22 31.374 16.115 14.264 1.00 0.00 H +ATOM 351 HG22 THR A 22 33.131 16.341 13.788 1.00 0.00 H +ATOM 352 HG23 THR A 22 32.672 16.018 15.566 1.00 0.00 H +ATOM 353 N ILE A 23 31.113 20.863 15.860 1.00 0.00 N +ATOM 354 H ILE A 23 31.196 19.977 16.639 1.00 0.00 H +ATOM 355 CA ILE A 23 31.288 22.201 16.417 1.00 0.00 C +ATOM 356 HA ILE A 23 30.888 22.895 15.542 1.00 0.00 H +ATOM 357 C ILE A 23 32.776 22.519 16.577 1.00 0.00 C +ATOM 358 O ILE A 23 33.233 23.659 16.384 1.00 0.00 O +ATOM 359 CB ILE A 23 30.520 22.300 17.764 1.00 0.00 C +ATOM 360 HB ILE A 23 30.733 21.378 18.475 1.00 0.00 H +ATOM 361 CG1 ILE A 23 29.006 22.043 17.442 1.00 0.00 C +ATOM 362 HG12 ILE A 23 28.687 20.961 17.066 1.00 0.00 H +ATOM 363 HG13 ILE A 23 28.521 22.233 18.510 1.00 0.00 H +ATOM 364 CG2 ILE A 23 30.832 23.699 18.358 1.00 0.00 C +ATOM 365 HG21 ILE A 23 30.847 24.479 17.455 1.00 0.00 H +ATOM 366 HG22 ILE A 23 31.845 23.696 18.985 1.00 0.00 H +ATOM 367 HG23 ILE A 23 30.010 24.061 19.144 1.00 0.00 H +ATOM 368 CD1 ILE A 23 28.407 22.948 16.366 1.00 0.00 C +ATOM 369 HD11 ILE A 23 28.387 22.249 15.389 1.00 0.00 H +ATOM 370 HD12 ILE A 23 27.266 23.181 16.635 1.00 0.00 H +ATOM 371 HD13 ILE A 23 28.911 23.999 16.095 1.00 0.00 H +ATOM 372 N GLU A 24 33.548 21.526 16.950 1.00 0.00 N +ATOM 373 H GLU A 24 33.396 21.341 18.112 1.00 0.00 H +ATOM 374 CA GLU A 24 35.031 21.722 17.069 1.00 0.00 C +ATOM 375 HA GLU A 24 35.474 22.436 17.914 1.00 0.00 H +ATOM 376 C GLU A 24 35.615 22.190 15.759 1.00 0.00 C +ATOM 377 O GLU A 24 36.532 23.046 15.724 1.00 0.00 O +ATOM 378 CB GLU A 24 35.667 20.383 17.447 1.00 0.00 C +ATOM 379 HB2 GLU A 24 34.602 19.899 17.173 1.00 0.00 H +ATOM 380 HB3 GLU A 24 35.876 19.194 17.450 1.00 0.00 H +ATOM 381 CG GLU A 24 37.128 20.293 17.872 1.00 0.00 C +ATOM 382 HG2 GLU A 24 38.009 20.536 17.104 1.00 0.00 H +ATOM 383 HG3 GLU A 24 37.416 20.917 18.848 1.00 0.00 H +ATOM 384 CD GLU A 24 37.561 18.851 18.082 1.00 0.00 C +ATOM 385 OE1 GLU A 24 37.758 18.024 17.195 1.00 0.00 O +ATOM 386 OE2 GLU A 24 37.628 18.599 19.313 1.00 0.00 O +ATOM 387 N ASN A 25 35.139 21.624 14.662 1.00 0.00 N +ATOM 388 H ASN A 25 34.886 20.465 14.764 1.00 0.00 H +ATOM 389 CA ASN A 25 35.590 21.945 13.302 1.00 0.00 C +ATOM 390 HA ASN A 25 36.767 21.768 13.403 1.00 0.00 H +ATOM 391 C ASN A 25 35.238 23.382 12.920 1.00 0.00 C +ATOM 392 O ASN A 25 36.066 24.109 12.333 1.00 0.00 O +ATOM 393 CB ASN A 25 35.064 20.957 12.255 1.00 0.00 C +ATOM 394 HB2 ASN A 25 35.705 19.955 12.376 1.00 0.00 H +ATOM 395 HB3 ASN A 25 33.950 20.635 12.026 1.00 0.00 H +ATOM 396 CG ASN A 25 35.541 21.418 10.871 1.00 0.00 C +ATOM 397 OD1 ASN A 25 36.772 21.623 10.676 1.00 0.00 O +ATOM 398 ND2 ASN A 25 34.628 21.595 9.920 1.00 0.00 N +ATOM 399 HD21 ASN A 25 33.732 22.394 9.898 1.00 0.00 H +ATOM 400 HD22 ASN A 25 35.002 20.905 9.028 1.00 0.00 H +ATOM 401 N VAL A 26 34.007 23.745 13.250 1.00 0.00 N +ATOM 402 H VAL A 26 33.263 22.995 13.772 1.00 0.00 H +ATOM 403 CA VAL A 26 33.533 25.097 12.978 1.00 0.00 C +ATOM 404 HA VAL A 26 33.566 25.187 11.800 1.00 0.00 H +ATOM 405 C VAL A 26 34.441 26.099 13.684 1.00 0.00 C +ATOM 406 O VAL A 26 34.883 27.090 13.093 1.00 0.00 O +ATOM 407 CB VAL A 26 32.060 25.257 13.364 1.00 0.00 C +ATOM 408 HB VAL A 26 31.809 24.983 14.493 1.00 0.00 H +ATOM 409 CG1 VAL A 26 31.684 26.749 13.342 1.00 0.00 C +ATOM 410 HG11 VAL A 26 31.055 27.038 14.313 1.00 0.00 H +ATOM 411 HG12 VAL A 26 32.516 27.585 13.195 1.00 0.00 H +ATOM 412 HG13 VAL A 26 30.858 26.942 12.496 1.00 0.00 H +ATOM 413 CG2 VAL A 26 31.152 24.421 12.477 1.00 0.00 C +ATOM 414 HG21 VAL A 26 31.241 23.234 12.402 1.00 0.00 H +ATOM 415 HG22 VAL A 26 31.240 24.815 11.354 1.00 0.00 H +ATOM 416 HG23 VAL A 26 30.078 24.765 12.860 1.00 0.00 H +ATOM 417 N LYS A 27 34.734 25.822 14.949 1.00 0.00 N +ATOM 418 H LYS A 27 34.647 24.742 15.420 1.00 0.00 H +ATOM 419 CA LYS A 27 35.596 26.715 15.736 1.00 0.00 C +ATOM 420 HA LYS A 27 35.024 27.751 15.670 1.00 0.00 H +ATOM 421 C LYS A 27 36.975 26.826 15.107 1.00 0.00 C +ATOM 422 O LYS A 27 37.579 27.926 15.159 1.00 0.00 O +ATOM 423 CB LYS A 27 35.715 26.203 17.172 1.00 0.00 C +ATOM 424 HB2 LYS A 27 36.105 25.060 17.207 1.00 0.00 H +ATOM 425 HB3 LYS A 27 36.581 26.889 17.704 1.00 0.00 H +ATOM 426 CG LYS A 27 34.343 26.445 17.898 1.00 0.00 C +ATOM 427 HG2 LYS A 27 34.059 27.604 17.888 1.00 0.00 H +ATOM 428 HG3 LYS A 27 33.450 25.796 17.449 1.00 0.00 H +ATOM 429 CD LYS A 27 34.509 26.077 19.360 1.00 0.00 C +ATOM 430 HD2 LYS A 27 34.713 24.899 19.469 1.00 0.00 H +ATOM 431 HD3 LYS A 27 35.464 26.456 19.976 1.00 0.00 H +ATOM 432 CE LYS A 27 33.206 26.311 20.122 1.00 0.00 C +ATOM 433 HE2 LYS A 27 32.154 25.781 19.919 1.00 0.00 H +ATOM 434 HE3 LYS A 27 33.015 27.492 20.338 1.00 0.00 H +ATOM 435 NZ LYS A 27 33.455 25.910 21.546 1.00 0.00 N +ATOM 436 HZ1 LYS A 27 33.273 26.782 22.345 1.00 0.00 H +ATOM 437 HZ2 LYS A 27 34.503 25.456 21.914 1.00 0.00 H +ATOM 438 HZ3 LYS A 27 32.687 25.136 22.051 1.00 0.00 H +ATOM 439 N ALA A 28 37.499 25.743 14.571 1.00 0.00 N +ATOM 440 H ALA A 28 37.472 24.658 15.041 1.00 0.00 H +ATOM 441 CA ALA A 28 38.794 25.761 13.880 1.00 0.00 C +ATOM 442 HA ALA A 28 39.695 26.088 14.587 1.00 0.00 H +ATOM 443 C ALA A 28 38.728 26.591 12.611 1.00 0.00 C +ATOM 444 O ALA A 28 39.704 27.346 12.277 1.00 0.00 O +ATOM 445 CB ALA A 28 39.285 24.336 13.566 1.00 0.00 C +ATOM 446 HB1 ALA A 28 38.729 23.581 12.821 1.00 0.00 H +ATOM 447 HB2 ALA A 28 39.672 23.674 14.485 1.00 0.00 H +ATOM 448 HB3 ALA A 28 40.313 24.500 12.963 1.00 0.00 H +ATOM 449 N LYS A 29 37.633 26.543 11.867 1.00 0.00 N +ATOM 450 H LYS A 29 36.837 25.689 11.956 1.00 0.00 H +ATOM 451 CA LYS A 29 37.471 27.391 10.668 1.00 0.00 C +ATOM 452 HA LYS A 29 38.405 27.135 9.969 1.00 0.00 H +ATOM 453 C LYS A 29 37.441 28.882 11.052 1.00 0.00 C +ATOM 454 O LYS A 29 38.020 29.772 10.382 1.00 0.00 O +ATOM 455 CB LYS A 29 36.193 27.058 9.911 1.00 0.00 C +ATOM 456 HB2 LYS A 29 35.296 27.635 10.440 1.00 0.00 H +ATOM 457 HB3 LYS A 29 36.307 27.669 8.885 1.00 0.00 H +ATOM 458 CG LYS A 29 36.153 25.620 9.409 1.00 0.00 C +ATOM 459 HG2 LYS A 29 36.604 24.730 10.070 1.00 0.00 H +ATOM 460 HG3 LYS A 29 36.901 25.565 8.469 1.00 0.00 H +ATOM 461 CD LYS A 29 34.758 25.280 8.900 1.00 0.00 C +ATOM 462 HD2 LYS A 29 33.875 25.935 8.384 1.00 0.00 H +ATOM 463 HD3 LYS A 29 34.359 25.364 10.032 1.00 0.00 H +ATOM 464 CE LYS A 29 34.793 24.264 7.767 1.00 0.00 C +ATOM 465 HE2 LYS A 29 33.884 23.528 7.512 1.00 0.00 H +ATOM 466 HE3 LYS A 29 35.767 23.572 7.949 1.00 0.00 H +ATOM 467 NZ LYS A 29 34.914 24.944 6.441 1.00 0.00 N +ATOM 468 HZ1 LYS A 29 34.628 24.144 5.580 1.00 0.00 H +ATOM 469 HZ2 LYS A 29 34.574 26.071 6.185 1.00 0.00 H +ATOM 470 HZ3 LYS A 29 36.105 24.959 6.169 1.00 0.00 H +ATOM 471 N ILE A 30 36.811 29.170 12.192 1.00 0.00 N +ATOM 472 H ILE A 30 36.471 28.358 12.973 1.00 0.00 H +ATOM 473 CA ILE A 30 36.731 30.570 12.645 1.00 0.00 C +ATOM 474 HA ILE A 30 36.381 31.276 11.759 1.00 0.00 H +ATOM 475 C ILE A 30 38.148 30.981 13.069 1.00 0.00 C +ATOM 476 O ILE A 30 38.544 32.150 12.856 1.00 0.00 O +ATOM 477 CB ILE A 30 35.708 30.776 13.806 1.00 0.00 C +ATOM 478 HB ILE A 30 35.833 29.957 14.651 1.00 0.00 H +ATOM 479 CG1 ILE A 30 34.228 30.630 13.319 1.00 0.00 C +ATOM 480 HG12 ILE A 30 33.819 31.594 12.759 1.00 0.00 H +ATOM 481 HG13 ILE A 30 34.185 29.617 12.700 1.00 0.00 H +ATOM 482 CG2 ILE A 30 35.874 32.138 14.512 1.00 0.00 C +ATOM 483 HG21 ILE A 30 35.051 32.932 14.156 1.00 0.00 H +ATOM 484 HG22 ILE A 30 36.911 32.710 14.374 1.00 0.00 H +ATOM 485 HG23 ILE A 30 35.739 32.060 15.696 1.00 0.00 H +ATOM 486 CD1 ILE A 30 33.284 30.504 14.552 1.00 0.00 C +ATOM 487 HD11 ILE A 30 32.227 30.259 14.056 1.00 0.00 H +ATOM 488 HD12 ILE A 30 33.191 31.494 15.205 1.00 0.00 H +ATOM 489 HD13 ILE A 30 33.472 29.644 15.355 1.00 0.00 H +ATOM 490 N GLN A 31 38.883 30.110 13.713 1.00 0.00 N +ATOM 491 H GLN A 31 38.882 28.931 13.706 1.00 0.00 H +ATOM 492 CA GLN A 31 40.269 30.508 14.115 1.00 0.00 C +ATOM 493 HA GLN A 31 40.111 31.498 14.749 1.00 0.00 H +ATOM 494 C GLN A 31 41.092 30.808 12.851 1.00 0.00 C +ATOM 495 O GLN A 31 41.828 31.808 12.681 1.00 0.00 O +ATOM 496 CB GLN A 31 40.996 29.399 14.865 1.00 0.00 C +ATOM 497 HB2 GLN A 31 41.239 28.333 14.384 1.00 0.00 H +ATOM 498 HB3 GLN A 31 40.441 29.213 15.897 1.00 0.00 H +ATOM 499 CG GLN A 31 42.445 29.848 15.182 1.00 0.00 C +ATOM 500 HG2 GLN A 31 42.548 30.980 15.647 1.00 0.00 H +ATOM 501 HG3 GLN A 31 43.270 29.680 14.289 1.00 0.00 H +ATOM 502 CD GLN A 31 43.090 28.828 16.095 1.00 0.00 C +ATOM 503 OE1 GLN A 31 42.770 27.655 15.906 1.00 0.00 O +ATOM 504 NE2 GLN A 31 43.898 29.252 17.050 1.00 0.00 N +ATOM 505 HE21 GLN A 31 44.919 28.803 16.611 1.00 0.00 H +ATOM 506 HE22 GLN A 31 44.347 29.667 18.068 1.00 0.00 H +ATOM 507 N ASP A 32 41.001 29.878 11.931 1.00 0.00 N +ATOM 508 H ASP A 32 41.597 28.917 12.297 1.00 0.00 H +ATOM 509 CA ASP A 32 41.718 30.022 10.643 1.00 0.00 C +ATOM 510 HA ASP A 32 42.889 30.189 10.811 1.00 0.00 H +ATOM 511 C ASP A 32 41.399 31.338 9.967 1.00 0.00 C +ATOM 512 O ASP A 32 42.260 32.036 9.381 1.00 0.00 O +ATOM 513 CB ASP A 32 41.398 28.780 9.810 1.00 0.00 C +ATOM 514 HB2 ASP A 32 41.304 27.650 10.189 1.00 0.00 H +ATOM 515 HB3 ASP A 32 40.482 28.952 9.065 1.00 0.00 H +ATOM 516 CG ASP A 32 42.626 28.557 8.928 1.00 0.00 C +ATOM 517 OD1 ASP A 32 43.666 28.262 9.539 1.00 0.00 O +ATOM 518 OD2 ASP A 32 42.430 28.812 7.728 1.00 0.00 O +ATOM 519 N LYS A 33 40.117 31.750 9.988 1.00 0.00 N +ATOM 520 H LYS A 33 39.242 31.231 10.573 1.00 0.00 H +ATOM 521 CA LYS A 33 39.808 32.994 9.233 1.00 0.00 C +ATOM 522 HA LYS A 33 40.742 33.220 8.517 1.00 0.00 H +ATOM 523 C LYS A 33 39.837 34.271 9.995 1.00 0.00 C +ATOM 524 O LYS A 33 40.164 35.323 9.345 1.00 0.00 O +ATOM 525 CB LYS A 33 38.615 32.801 8.320 1.00 0.00 C +ATOM 526 HB2 LYS A 33 38.932 31.771 7.796 1.00 0.00 H +ATOM 527 HB3 LYS A 33 38.872 33.551 7.418 1.00 0.00 H +ATOM 528 CG LYS A 33 37.220 32.822 8.827 1.00 0.00 C +ATOM 529 HG2 LYS A 33 36.792 31.715 8.696 1.00 0.00 H +ATOM 530 HG3 LYS A 33 37.245 32.986 10.000 1.00 0.00 H +ATOM 531 CD LYS A 33 36.351 33.613 7.838 1.00 0.00 C +ATOM 532 HD2 LYS A 33 35.202 33.885 7.922 1.00 0.00 H +ATOM 533 HD3 LYS A 33 36.835 34.691 7.668 1.00 0.00 H +ATOM 534 CE LYS A 33 36.322 32.944 6.477 1.00 0.00 C +ATOM 535 HE2 LYS A 33 37.313 32.604 5.898 1.00 0.00 H +ATOM 536 HE3 LYS A 33 35.619 31.990 6.327 1.00 0.00 H +ATOM 537 NZ LYS A 33 35.768 33.945 5.489 1.00 0.00 N +ATOM 538 HZ1 LYS A 33 36.604 34.753 5.185 1.00 0.00 H +ATOM 539 HZ2 LYS A 33 35.671 33.342 4.454 1.00 0.00 H +ATOM 540 HZ3 LYS A 33 34.783 34.621 5.528 1.00 0.00 H +ATOM 541 N GLU A 34 39.655 34.335 11.285 1.00 0.00 N +ATOM 542 H GLU A 34 39.256 33.384 11.838 1.00 0.00 H +ATOM 543 CA GLU A 34 39.676 35.547 12.072 1.00 0.00 C +ATOM 544 HA GLU A 34 40.133 36.484 11.489 1.00 0.00 H +ATOM 545 C GLU A 34 40.675 35.527 13.200 1.00 0.00 C +ATOM 546 O GLU A 34 40.814 36.528 13.911 1.00 0.00 O +ATOM 547 CB GLU A 34 38.290 35.814 12.698 1.00 0.00 C +ATOM 548 HB2 GLU A 34 38.395 36.850 13.285 1.00 0.00 H +ATOM 549 HB3 GLU A 34 37.906 34.975 13.450 1.00 0.00 H +ATOM 550 CG GLU A 34 37.156 35.985 11.688 1.00 0.00 C +ATOM 551 HG2 GLU A 34 37.364 35.346 10.711 1.00 0.00 H +ATOM 552 HG3 GLU A 34 36.291 36.228 12.470 1.00 0.00 H +ATOM 553 CD GLU A 34 37.192 37.361 11.033 1.00 0.00 C +ATOM 554 OE1 GLU A 34 37.519 38.360 11.645 1.00 0.00 O +ATOM 555 OE2 GLU A 34 36.861 37.320 9.822 1.00 0.00 O +ATOM 556 N GLY A 35 41.317 34.393 13.432 1.00 0.00 N +ATOM 557 H GLY A 35 42.111 34.362 12.519 1.00 0.00 H +ATOM 558 CA GLY A 35 42.345 34.269 14.431 1.00 0.00 C +ATOM 559 HA2 GLY A 35 43.274 33.521 14.323 1.00 0.00 H +ATOM 560 HA3 GLY A 35 42.934 35.311 14.511 1.00 0.00 H +ATOM 561 C GLY A 35 41.949 34.076 15.842 1.00 0.00 C +ATOM 562 O GLY A 35 42.829 34.000 16.739 1.00 0.00 O +ATOM 563 N ILE A 36 40.642 33.916 16.112 1.00 0.00 N +ATOM 564 H ILE A 36 39.865 34.120 15.234 1.00 0.00 H +ATOM 565 CA ILE A 36 40.226 33.716 17.509 1.00 0.00 C +ATOM 566 HA ILE A 36 40.711 34.674 18.028 1.00 0.00 H +ATOM 567 C ILE A 36 40.449 32.278 17.945 1.00 0.00 C +ATOM 568 O ILE A 36 39.936 31.336 17.315 1.00 0.00 O +ATOM 569 CB ILE A 36 38.693 34.106 17.595 1.00 0.00 C +ATOM 570 HB ILE A 36 38.177 33.289 16.903 1.00 0.00 H +ATOM 571 CG1 ILE A 36 38.471 35.546 17.045 1.00 0.00 C +ATOM 572 HG12 ILE A 36 39.032 36.165 16.190 1.00 0.00 H +ATOM 573 HG13 ILE A 36 38.743 36.365 17.875 1.00 0.00 H +ATOM 574 CG2 ILE A 36 38.146 33.932 19.027 1.00 0.00 C +ATOM 575 HG21 ILE A 36 38.221 32.886 19.585 1.00 0.00 H +ATOM 576 HG22 ILE A 36 38.807 34.707 19.655 1.00 0.00 H +ATOM 577 HG23 ILE A 36 37.033 34.357 18.956 1.00 0.00 H +ATOM 578 CD1 ILE A 36 36.958 35.746 16.680 1.00 0.00 C +ATOM 579 HD11 ILE A 36 36.620 36.747 17.243 1.00 0.00 H +ATOM 580 HD12 ILE A 36 36.304 34.753 16.729 1.00 0.00 H +ATOM 581 HD13 ILE A 36 36.804 36.129 15.554 1.00 0.00 H +ATOM 582 N PRO A 37 41.189 32.085 19.031 1.00 0.00 N +ATOM 583 CA PRO A 37 41.461 30.751 19.594 1.00 0.00 C +ATOM 584 HA PRO A 37 42.300 30.371 18.844 1.00 0.00 H +ATOM 585 C PRO A 37 40.168 30.026 19.918 1.00 0.00 C +ATOM 586 O PRO A 37 39.264 30.662 20.521 1.00 0.00 O +ATOM 587 CB PRO A 37 42.195 31.142 20.913 1.00 0.00 C +ATOM 588 HB2 PRO A 37 42.340 29.962 21.113 1.00 0.00 H +ATOM 589 HB3 PRO A 37 42.631 31.302 22.025 1.00 0.00 H +ATOM 590 CG PRO A 37 42.904 32.414 20.553 1.00 0.00 C +ATOM 591 HG2 PRO A 37 43.416 33.130 21.367 1.00 0.00 H +ATOM 592 HG3 PRO A 37 43.898 32.201 19.918 1.00 0.00 H +ATOM 593 CD PRO A 37 41.822 33.188 19.813 1.00 0.00 C +ATOM 594 HD2 PRO A 37 42.489 34.085 19.376 1.00 0.00 H +ATOM 595 HD3 PRO A 37 41.145 33.838 20.544 1.00 0.00 H +ATOM 596 N PRO A 38 40.059 28.758 19.607 1.00 0.00 N +ATOM 597 CA PRO A 38 38.817 28.020 19.889 1.00 0.00 C +ATOM 598 HA PRO A 38 37.791 28.280 19.361 1.00 0.00 H +ATOM 599 C PRO A 38 38.421 28.048 21.341 1.00 0.00 C +ATOM 600 O PRO A 38 37.213 28.036 21.704 1.00 0.00 O +ATOM 601 CB PRO A 38 39.090 26.629 19.325 1.00 0.00 C +ATOM 602 HB2 PRO A 38 39.700 25.983 20.134 1.00 0.00 H +ATOM 603 HB3 PRO A 38 38.270 25.781 19.131 1.00 0.00 H +ATOM 604 CG PRO A 38 40.082 26.904 18.198 1.00 0.00 C +ATOM 605 HG2 PRO A 38 39.574 27.096 17.134 1.00 0.00 H +ATOM 606 HG3 PRO A 38 40.742 25.913 18.053 1.00 0.00 H +ATOM 607 CD PRO A 38 41.035 27.909 18.879 1.00 0.00 C +ATOM 608 HD2 PRO A 38 41.862 27.433 19.602 1.00 0.00 H +ATOM 609 HD3 PRO A 38 41.679 28.261 17.948 1.00 0.00 H +ATOM 610 N ASP A 39 39.374 28.090 22.240 1.00 0.00 N +ATOM 611 H ASP A 39 40.429 27.554 22.085 1.00 0.00 H +ATOM 612 CA ASP A 39 39.063 28.063 23.695 1.00 0.00 C +ATOM 613 HA ASP A 39 38.281 27.189 23.913 1.00 0.00 H +ATOM 614 C ASP A 39 38.365 29.335 24.159 1.00 0.00 C +ATOM 615 O ASP A 39 37.684 29.390 25.221 1.00 0.00 O +ATOM 616 CB ASP A 39 40.340 27.692 24.468 1.00 0.00 C +ATOM 617 HB2 ASP A 39 40.165 26.580 24.869 1.00 0.00 H +ATOM 618 HB3 ASP A 39 41.506 27.662 24.207 1.00 0.00 H +ATOM 619 CG ASP A 39 40.559 28.585 25.675 1.00 0.00 C +ATOM 620 OD1 ASP A 39 40.716 29.809 25.456 1.00 0.00 O +ATOM 621 OD2 ASP A 39 40.549 28.090 26.840 1.00 0.00 O +ATOM 622 N GLN A 40 38.419 30.373 23.341 1.00 0.00 N +ATOM 623 H GLN A 40 39.509 30.388 22.878 1.00 0.00 H +ATOM 624 CA GLN A 40 37.738 31.637 23.712 1.00 0.00 C +ATOM 625 HA GLN A 40 37.688 31.723 24.896 1.00 0.00 H +ATOM 626 C GLN A 40 36.334 31.742 23.087 1.00 0.00 C +ATOM 627 O GLN A 40 35.574 32.618 23.483 1.00 0.00 O +ATOM 628 CB GLN A 40 38.528 32.854 23.182 1.00 0.00 C +ATOM 629 HB2 GLN A 40 38.020 33.840 23.598 1.00 0.00 H +ATOM 630 HB3 GLN A 40 38.624 32.802 22.000 1.00 0.00 H +ATOM 631 CG GLN A 40 39.919 32.854 23.840 1.00 0.00 C +ATOM 632 HG2 GLN A 40 40.771 32.026 23.725 1.00 0.00 H +ATOM 633 HG3 GLN A 40 39.924 33.015 25.024 1.00 0.00 H +ATOM 634 CD GLN A 40 40.760 34.036 23.394 1.00 0.00 C +ATOM 635 OE1 GLN A 40 41.975 34.008 23.624 1.00 0.00 O +ATOM 636 NE2 GLN A 40 40.140 35.007 22.775 1.00 0.00 N +ATOM 637 HE21 GLN A 40 41.041 35.771 22.579 1.00 0.00 H +ATOM 638 HE22 GLN A 40 39.292 35.481 22.096 1.00 0.00 H +ATOM 639 N GLN A 41 36.000 30.860 22.172 1.00 0.00 N +ATOM 640 H GLN A 41 36.307 29.747 22.475 1.00 0.00 H +ATOM 641 CA GLN A 41 34.738 30.875 21.473 1.00 0.00 C +ATOM 642 HA GLN A 41 34.615 32.054 21.498 1.00 0.00 H +ATOM 643 C GLN A 41 33.589 30.189 22.181 1.00 0.00 C +ATOM 644 O GLN A 41 33.580 29.009 22.499 1.00 0.00 O +ATOM 645 CB GLN A 41 34.876 30.237 20.066 1.00 0.00 C +ATOM 646 HB2 GLN A 41 33.784 30.160 19.616 1.00 0.00 H +ATOM 647 HB3 GLN A 41 35.252 29.114 20.157 1.00 0.00 H +ATOM 648 CG GLN A 41 36.012 30.860 19.221 1.00 0.00 C +ATOM 649 HG2 GLN A 41 35.515 31.910 18.882 1.00 0.00 H +ATOM 650 HG3 GLN A 41 37.154 30.944 19.643 1.00 0.00 H +ATOM 651 CD GLN A 41 36.083 30.194 17.875 1.00 0.00 C +ATOM 652 OE1 GLN A 41 35.048 29.702 17.393 1.00 0.00 O +ATOM 653 NE2 GLN A 41 37.228 30.126 17.233 1.00 0.00 N +ATOM 654 HE21 GLN A 41 38.246 29.794 17.742 1.00 0.00 H +ATOM 655 HE22 GLN A 41 37.460 30.111 16.070 1.00 0.00 H +ATOM 656 N ARG A 42 32.478 30.917 22.269 1.00 0.00 N +ATOM 657 H ARG A 42 32.297 31.976 21.775 1.00 0.00 H +ATOM 658 CA ARG A 42 31.200 30.329 22.780 1.00 0.00 C +ATOM 659 HA ARG A 42 31.344 29.182 23.073 1.00 0.00 H +ATOM 660 C ARG A 42 30.210 30.509 21.650 1.00 0.00 C +ATOM 661 O ARG A 42 29.978 31.726 21.269 1.00 0.00 O +ATOM 662 CB ARG A 42 30.847 30.931 24.118 1.00 0.00 C +ATOM 663 HB2 ARG A 42 31.465 30.294 24.924 1.00 0.00 H +ATOM 664 HB3 ARG A 42 31.298 32.019 24.299 1.00 0.00 H +ATOM 665 CG ARG A 42 29.412 30.796 24.598 1.00 0.00 C +ATOM 666 HG2 ARG A 42 28.699 31.511 23.980 1.00 0.00 H +ATOM 667 HG3 ARG A 42 29.351 29.600 24.597 1.00 0.00 H +ATOM 668 CD ARG A 42 29.271 31.314 26.016 1.00 0.00 C +ATOM 669 HD2 ARG A 42 29.819 32.315 26.367 1.00 0.00 H +ATOM 670 HD3 ARG A 42 29.815 30.647 26.846 1.00 0.00 H +ATOM 671 NE ARG A 42 27.875 31.317 26.443 1.00 0.00 N +ATOM 672 HE ARG A 42 27.745 31.014 27.590 1.00 0.00 H +ATOM 673 CZ ARG A 42 27.132 32.423 26.574 1.00 0.00 C +ATOM 674 NH1 ARG A 42 27.630 33.656 26.461 1.00 0.00 N +ATOM 675 HH11 ARG A 42 26.928 34.518 26.036 1.00 0.00 H +ATOM 676 HH12 ARG A 42 28.084 34.094 27.475 1.00 0.00 H +ATOM 677 NH2 ARG A 42 25.810 32.299 26.732 1.00 0.00 N +ATOM 678 HH21 ARG A 42 24.911 33.002 26.391 1.00 0.00 H +ATOM 679 HH22 ARG A 42 25.323 31.677 27.627 1.00 0.00 H +ATOM 680 N LEU A 43 29.694 29.436 21.054 1.00 0.00 N +ATOM 681 H LEU A 43 29.851 28.349 21.507 1.00 0.00 H +ATOM 682 CA LEU A 43 28.762 29.573 19.906 1.00 0.00 C +ATOM 683 HA LEU A 43 28.955 30.658 19.471 1.00 0.00 H +ATOM 684 C LEU A 43 27.331 29.317 20.364 1.00 0.00 C +ATOM 685 O LEU A 43 27.101 28.346 21.097 1.00 0.00 O +ATOM 686 CB LEU A 43 29.151 28.655 18.755 1.00 0.00 C +ATOM 687 HB2 LEU A 43 29.262 27.580 19.252 1.00 0.00 H +ATOM 688 HB3 LEU A 43 28.196 28.694 18.046 1.00 0.00 H +ATOM 689 CG LEU A 43 30.416 28.912 17.980 1.00 0.00 C +ATOM 690 HG LEU A 43 31.327 29.106 18.721 1.00 0.00 H +ATOM 691 CD1 LEU A 43 30.738 27.693 17.122 1.00 0.00 C +ATOM 692 HD11 LEU A 43 29.823 27.274 16.478 1.00 0.00 H +ATOM 693 HD12 LEU A 43 31.133 26.827 17.834 1.00 0.00 H +ATOM 694 HD13 LEU A 43 31.689 27.955 16.448 1.00 0.00 H +ATOM 695 CD2 LEU A 43 30.205 30.168 17.129 1.00 0.00 C +ATOM 696 HD21 LEU A 43 29.504 31.097 17.381 1.00 0.00 H +ATOM 697 HD22 LEU A 43 31.327 30.535 16.955 1.00 0.00 H +ATOM 698 HD23 LEU A 43 29.810 29.853 16.047 1.00 0.00 H +ATOM 699 N ILE A 44 26.436 30.232 20.004 1.00 0.00 N +ATOM 700 H ILE A 44 26.672 31.392 20.074 1.00 0.00 H +ATOM 701 CA ILE A 44 25.034 30.170 20.401 1.00 0.00 C +ATOM 702 HA ILE A 44 24.886 29.145 20.971 1.00 0.00 H +ATOM 703 C ILE A 44 24.101 30.149 19.196 1.00 0.00 C +ATOM 704 O ILE A 44 24.196 30.948 18.287 1.00 0.00 O +ATOM 705 CB ILE A 44 24.639 31.426 21.286 1.00 0.00 C +ATOM 706 HB ILE A 44 24.355 32.285 20.517 1.00 0.00 H +ATOM 707 CG1 ILE A 44 25.646 31.670 22.421 1.00 0.00 C +ATOM 708 HG12 ILE A 44 25.322 32.823 22.264 1.00 0.00 H +ATOM 709 HG13 ILE A 44 26.419 32.156 23.200 1.00 0.00 H +ATOM 710 CG2 ILE A 44 23.181 31.309 21.824 1.00 0.00 C +ATOM 711 HG21 ILE A 44 22.774 30.390 22.464 1.00 0.00 H +ATOM 712 HG22 ILE A 44 22.343 31.612 21.022 1.00 0.00 H +ATOM 713 HG23 ILE A 44 23.057 32.225 22.595 1.00 0.00 H +ATOM 714 CD1 ILE A 44 25.778 30.436 23.356 1.00 0.00 C +ATOM 715 HD11 ILE A 44 24.674 30.049 23.616 1.00 0.00 H +ATOM 716 HD12 ILE A 44 26.743 29.915 22.895 1.00 0.00 H +ATOM 717 HD13 ILE A 44 26.051 30.530 24.518 1.00 0.00 H +ATOM 718 N PHE A 45 23.141 29.187 19.241 1.00 0.00 N +ATOM 719 H PHE A 45 23.194 28.131 19.768 1.00 0.00 H +ATOM 720 CA PHE A 45 22.126 29.062 18.183 1.00 0.00 C +ATOM 721 HA PHE A 45 21.983 30.159 17.743 1.00 0.00 H +ATOM 722 C PHE A 45 20.835 28.629 18.904 1.00 0.00 C +ATOM 723 O PHE A 45 20.821 27.734 19.749 1.00 0.00 O +ATOM 724 CB PHE A 45 22.494 28.057 17.109 1.00 0.00 C +ATOM 725 HB2 PHE A 45 22.912 27.080 16.541 1.00 0.00 H +ATOM 726 HB3 PHE A 45 23.657 28.254 17.356 1.00 0.00 H +ATOM 727 CG PHE A 45 21.447 27.869 16.026 1.00 0.00 C +ATOM 728 CD1 PHE A 45 21.325 28.813 15.005 1.00 0.00 C +ATOM 729 HD1 PHE A 45 21.282 29.975 15.242 1.00 0.00 H +ATOM 730 CD2 PHE A 45 20.638 26.735 16.053 1.00 0.00 C +ATOM 731 HD2 PHE A 45 20.554 25.892 16.880 1.00 0.00 H +ATOM 732 CE1 PHE A 45 20.369 28.648 14.001 1.00 0.00 C +ATOM 733 HE1 PHE A 45 19.669 29.544 13.653 1.00 0.00 H +ATOM 734 CE2 PHE A 45 19.677 26.539 15.051 1.00 0.00 C +ATOM 735 HE2 PHE A 45 18.729 25.828 15.134 1.00 0.00 H +ATOM 736 CZ PHE A 45 19.593 27.465 14.021 1.00 0.00 C +ATOM 737 HZ PHE A 45 18.549 27.512 13.451 1.00 0.00 H +ATOM 738 N ALA A 46 19.810 29.378 18.578 1.00 0.00 N +ATOM 739 H ALA A 46 19.701 30.369 17.927 1.00 0.00 H +ATOM 740 CA ALA A 46 18.443 29.143 19.083 1.00 0.00 C +ATOM 741 HA ALA A 46 17.669 30.051 19.016 1.00 0.00 H +ATOM 742 C ALA A 46 18.453 28.941 20.591 1.00 0.00 C +ATOM 743 O ALA A 46 17.860 27.994 21.128 1.00 0.00 O +ATOM 744 CB ALA A 46 17.864 27.977 18.346 1.00 0.00 C +ATOM 745 HB1 ALA A 46 16.981 27.368 18.882 1.00 0.00 H +ATOM 746 HB2 ALA A 46 17.229 28.527 17.485 1.00 0.00 H +ATOM 747 HB3 ALA A 46 18.457 27.109 17.779 1.00 0.00 H +ATOM 748 N GLY A 47 19.172 29.808 21.243 1.00 0.00 N +ATOM 749 H GLY A 47 19.018 30.951 20.935 1.00 0.00 H +ATOM 750 CA GLY A 47 19.399 29.894 22.655 1.00 0.00 C +ATOM 751 HA2 GLY A 47 19.845 30.904 23.113 1.00 0.00 H +ATOM 752 HA3 GLY A 47 18.305 29.878 23.149 1.00 0.00 H +ATOM 753 C GLY A 47 20.083 28.729 23.321 1.00 0.00 C +ATOM 754 O GLY A 47 19.991 28.584 24.561 1.00 0.00 O +ATOM 755 N LYS A 48 20.801 27.931 22.578 1.00 0.00 N +ATOM 756 H LYS A 48 21.313 28.625 21.771 1.00 0.00 H +ATOM 757 CA LYS A 48 21.550 26.796 23.133 1.00 0.00 C +ATOM 758 HA LYS A 48 21.268 26.671 24.285 1.00 0.00 H +ATOM 759 C LYS A 48 23.046 27.087 22.913 1.00 0.00 C +ATOM 760 O LYS A 48 23.383 27.627 21.870 1.00 0.00 O +ATOM 761 CB LYS A 48 21.242 25.519 22.391 1.00 0.00 C +ATOM 762 HB2 LYS A 48 21.921 24.703 22.950 1.00 0.00 H +ATOM 763 HB3 LYS A 48 21.615 25.534 21.260 1.00 0.00 H +ATOM 764 CG LYS A 48 19.762 25.077 22.455 1.00 0.00 C +ATOM 765 HG2 LYS A 48 18.948 25.945 22.495 1.00 0.00 H +ATOM 766 HG3 LYS A 48 19.625 24.645 23.564 1.00 0.00 H +ATOM 767 CD LYS A 48 19.634 23.885 21.531 1.00 0.00 C +ATOM 768 HD2 LYS A 48 20.647 23.291 21.323 1.00 0.00 H +ATOM 769 HD3 LYS A 48 19.065 23.039 22.169 1.00 0.00 H +ATOM 770 CE LYS A 48 18.791 24.221 20.313 1.00 0.00 C +ATOM 771 HE2 LYS A 48 19.223 24.949 19.479 1.00 0.00 H +ATOM 772 HE3 LYS A 48 18.637 23.183 19.733 1.00 0.00 H +ATOM 773 NZ LYS A 48 17.440 24.655 20.827 1.00 0.00 N +ATOM 774 HZ1 LYS A 48 16.691 24.095 20.069 1.00 0.00 H +ATOM 775 HZ2 LYS A 48 17.046 24.213 21.871 1.00 0.00 H +ATOM 776 HZ3 LYS A 48 16.924 25.731 20.824 1.00 0.00 H +ATOM 777 N GLN A 49 23.880 26.727 23.851 1.00 0.00 N +ATOM 778 H GLN A 49 23.524 26.218 24.866 1.00 0.00 H +ATOM 779 CA GLN A 49 25.349 26.872 23.643 1.00 0.00 C +ATOM 780 HA GLN A 49 25.492 27.849 22.995 1.00 0.00 H +ATOM 781 C GLN A 49 25.743 25.586 22.922 1.00 0.00 C +ATOM 782 O GLN A 49 25.325 24.489 23.378 1.00 0.00 O +ATOM 783 CB GLN A 49 26.070 27.025 24.960 1.00 0.00 C +ATOM 784 HB2 GLN A 49 26.081 26.036 25.639 1.00 0.00 H +ATOM 785 HB3 GLN A 49 25.410 27.736 25.659 1.00 0.00 H +ATOM 786 CG GLN A 49 27.553 27.356 24.695 1.00 0.00 C +ATOM 787 HG2 GLN A 49 27.997 27.873 23.724 1.00 0.00 H +ATOM 788 HG3 GLN A 49 28.047 26.269 24.626 1.00 0.00 H +ATOM 789 CD GLN A 49 28.262 27.576 26.020 1.00 0.00 C +ATOM 790 OE1 GLN A 49 29.189 26.840 26.335 1.00 0.00 O +ATOM 791 NE2 GLN A 49 27.777 28.585 26.739 1.00 0.00 N +ATOM 792 HE21 GLN A 49 28.424 28.479 27.743 1.00 0.00 H +ATOM 793 HE22 GLN A 49 26.692 28.837 27.163 1.00 0.00 H +ATOM 794 N LEU A 50 26.465 25.689 21.833 1.00 0.00 N +ATOM 795 H LEU A 50 27.451 26.311 22.052 1.00 0.00 H +ATOM 796 CA LEU A 50 26.826 24.521 21.012 1.00 0.00 C +ATOM 797 HA LEU A 50 25.950 23.751 21.228 1.00 0.00 H +ATOM 798 C LEU A 50 27.994 23.781 21.643 1.00 0.00 C +ATOM 799 O LEU A 50 28.904 24.444 22.098 1.00 0.00 O +ATOM 800 CB LEU A 50 27.043 24.992 19.571 1.00 0.00 C +ATOM 801 HB2 LEU A 50 27.029 24.036 18.859 1.00 0.00 H +ATOM 802 HB3 LEU A 50 28.079 25.571 19.633 1.00 0.00 H +ATOM 803 CG LEU A 50 25.931 25.844 18.959 1.00 0.00 C +ATOM 804 HG LEU A 50 25.854 26.828 19.627 1.00 0.00 H +ATOM 805 CD1 LEU A 50 26.203 26.083 17.471 1.00 0.00 C +ATOM 806 HD11 LEU A 50 25.771 27.192 17.431 1.00 0.00 H +ATOM 807 HD12 LEU A 50 25.650 25.304 16.752 1.00 0.00 H +ATOM 808 HD13 LEU A 50 27.383 26.157 17.122 1.00 0.00 H +ATOM 809 CD2 LEU A 50 24.577 25.190 19.079 1.00 0.00 C +ATOM 810 HD21 LEU A 50 23.697 25.491 18.330 1.00 0.00 H +ATOM 811 HD22 LEU A 50 24.678 24.011 18.920 1.00 0.00 H +ATOM 812 HD23 LEU A 50 24.123 25.353 20.170 1.00 0.00 H +ATOM 813 N GLU A 51 27.942 22.448 21.648 1.00 0.00 N +ATOM 814 H GLU A 51 27.291 21.760 20.939 1.00 0.00 H +ATOM 815 CA GLU A 51 29.015 21.657 22.288 1.00 0.00 C +ATOM 816 HA GLU A 51 29.565 22.351 23.089 1.00 0.00 H +ATOM 817 C GLU A 51 29.942 21.106 21.240 1.00 0.00 C +ATOM 818 O GLU A 51 29.470 20.677 20.190 1.00 0.00 O +ATOM 819 CB GLU A 51 28.348 20.540 23.066 1.00 0.00 C +ATOM 820 HB2 GLU A 51 27.406 19.883 22.741 1.00 0.00 H +ATOM 821 HB3 GLU A 51 27.870 21.276 23.881 1.00 0.00 H +ATOM 822 CG GLU A 51 29.247 19.456 23.705 1.00 0.00 C +ATOM 823 HG2 GLU A 51 30.327 19.747 24.124 1.00 0.00 H +ATOM 824 HG3 GLU A 51 29.283 18.328 23.330 1.00 0.00 H +ATOM 825 CD GLU A 51 28.722 19.047 25.066 1.00 0.00 C +ATOM 826 OE1 GLU A 51 29.139 18.132 25.746 1.00 0.00 O +ATOM 827 OE2 GLU A 51 27.777 19.842 25.367 1.00 0.00 O +ATOM 828 N ASP A 52 31.233 21.090 21.459 1.00 0.00 N +ATOM 829 H ASP A 52 31.605 21.474 22.522 1.00 0.00 H +ATOM 830 CA ASP A 52 32.262 20.670 20.514 1.00 0.00 C +ATOM 831 HA ASP A 52 32.270 21.698 19.928 1.00 0.00 H +ATOM 832 C ASP A 52 32.128 19.364 19.750 1.00 0.00 C +ATOM 833 O ASP A 52 32.546 19.317 18.558 1.00 0.00 O +ATOM 834 CB ASP A 52 33.638 20.716 21.242 1.00 0.00 C +ATOM 835 HB2 ASP A 52 33.734 20.388 22.401 1.00 0.00 H +ATOM 836 HB3 ASP A 52 34.512 20.107 20.684 1.00 0.00 H +ATOM 837 CG ASP A 52 34.174 22.129 21.354 1.00 0.00 C +ATOM 838 OD1 ASP A 52 35.252 22.322 21.958 1.00 0.00 O +ATOM 839 OD2 ASP A 52 33.544 23.086 20.883 1.00 0.00 O +ATOM 840 N GLY A 53 31.697 18.311 20.406 1.00 0.00 N +ATOM 841 H GLY A 53 31.857 18.218 21.584 1.00 0.00 H +ATOM 842 CA GLY A 53 31.568 16.962 19.825 1.00 0.00 C +ATOM 843 HA2 GLY A 53 32.563 16.808 19.181 1.00 0.00 H +ATOM 844 HA3 GLY A 53 31.546 16.043 20.591 1.00 0.00 H +ATOM 845 C GLY A 53 30.320 16.698 19.051 1.00 0.00 C +ATOM 846 O GLY A 53 30.198 15.657 18.366 1.00 0.00 O +ATOM 847 N ARG A 54 29.340 17.594 19.076 1.00 0.00 N +ATOM 848 H ARG A 54 29.260 18.030 20.180 1.00 0.00 H +ATOM 849 CA ARG A 54 28.108 17.439 18.276 1.00 0.00 C +ATOM 850 HA ARG A 54 27.943 16.276 18.092 1.00 0.00 H +ATOM 851 C ARG A 54 28.375 17.999 16.887 1.00 0.00 C +ATOM 852 O ARG A 54 29.326 18.786 16.690 1.00 0.00 O +ATOM 853 CB ARG A 54 26.926 18.191 18.892 1.00 0.00 C +ATOM 854 HB2 ARG A 54 27.400 19.279 18.828 1.00 0.00 H +ATOM 855 HB3 ARG A 54 25.855 18.077 18.390 1.00 0.00 H +ATOM 856 CG ARG A 54 26.621 17.799 20.352 1.00 0.00 C +ATOM 857 HG2 ARG A 54 27.261 17.718 21.374 1.00 0.00 H +ATOM 858 HG3 ARG A 54 25.825 18.664 20.645 1.00 0.00 H +ATOM 859 CD ARG A 54 26.010 16.370 20.280 1.00 0.00 C +ATOM 860 HD2 ARG A 54 24.976 16.648 20.852 1.00 0.00 H +ATOM 861 HD3 ARG A 54 25.499 15.545 19.564 1.00 0.00 H +ATOM 862 NE ARG A 54 26.975 15.521 20.942 1.00 0.00 N +ATOM 863 HE ARG A 54 26.559 15.332 22.045 1.00 0.00 H +ATOM 864 CZ ARG A 54 27.603 14.423 20.655 1.00 0.00 C +ATOM 865 NH1 ARG A 54 27.479 13.733 19.537 1.00 0.00 N +ATOM 866 HH11 ARG A 54 26.493 13.108 19.283 1.00 0.00 H +ATOM 867 HH12 ARG A 54 28.347 13.208 18.914 1.00 0.00 H +ATOM 868 NH2 ARG A 54 28.519 13.967 21.550 1.00 0.00 N +ATOM 869 HH21 ARG A 54 28.743 12.797 21.609 1.00 0.00 H +ATOM 870 HH22 ARG A 54 29.095 14.451 22.470 1.00 0.00 H +ATOM 871 N THR A 55 27.510 17.689 15.954 1.00 0.00 N +ATOM 872 H THR A 55 26.599 16.940 16.047 1.00 0.00 H +ATOM 873 CA THR A 55 27.574 18.192 14.563 1.00 0.00 C +ATOM 874 HA THR A 55 28.629 18.696 14.412 1.00 0.00 H +ATOM 875 C THR A 55 26.482 19.280 14.432 1.00 0.00 C +ATOM 876 O THR A 55 25.609 19.388 15.287 1.00 0.00 O +ATOM 877 CB THR A 55 27.299 17.055 13.533 1.00 0.00 C +ATOM 878 HB THR A 55 27.315 17.273 12.369 1.00 0.00 H +ATOM 879 OG1 THR A 55 25.925 16.611 13.913 1.00 0.00 O +ATOM 880 HG1 THR A 55 25.723 15.436 13.821 1.00 0.00 H +ATOM 881 CG2 THR A 55 28.236 15.864 13.558 1.00 0.00 C +ATOM 882 HG21 THR A 55 28.535 15.402 14.621 1.00 0.00 H +ATOM 883 HG22 THR A 55 29.252 15.855 12.931 1.00 0.00 H +ATOM 884 HG23 THR A 55 27.758 14.890 13.037 1.00 0.00 H +ATOM 885 N LEU A 56 26.585 20.063 13.378 1.00 0.00 N +ATOM 886 H LEU A 56 27.646 20.562 13.551 1.00 0.00 H +ATOM 887 CA LEU A 56 25.594 21.109 13.072 1.00 0.00 C +ATOM 888 HA LEU A 56 25.429 21.705 14.087 1.00 0.00 H +ATOM 889 C LEU A 56 24.241 20.436 12.857 1.00 0.00 C +ATOM 890 O LEU A 56 23.264 20.951 13.329 1.00 0.00 O +ATOM 891 CB LEU A 56 26.084 21.888 11.833 1.00 0.00 C +ATOM 892 HB2 LEU A 56 26.187 21.000 11.054 1.00 0.00 H +ATOM 893 HB3 LEU A 56 25.266 22.638 11.405 1.00 0.00 H +ATOM 894 CG LEU A 56 27.426 22.616 11.902 1.00 0.00 C +ATOM 895 HG LEU A 56 28.370 21.893 11.898 1.00 0.00 H +ATOM 896 CD1 LEU A 56 27.718 23.341 10.578 1.00 0.00 C +ATOM 897 HD11 LEU A 56 28.882 23.597 10.510 1.00 0.00 H +ATOM 898 HD12 LEU A 56 27.063 24.345 10.621 1.00 0.00 H +ATOM 899 HD13 LEU A 56 27.392 22.656 9.656 1.00 0.00 H +ATOM 900 CD2 LEU A 56 27.380 23.721 12.955 1.00 0.00 C +ATOM 901 HD21 LEU A 56 27.354 24.887 12.683 1.00 0.00 H +ATOM 902 HD22 LEU A 56 28.441 23.522 13.467 1.00 0.00 H +ATOM 903 HD23 LEU A 56 26.554 23.590 13.803 1.00 0.00 H +ATOM 904 N SER A 57 24.240 19.233 12.246 1.00 0.00 N +ATOM 905 H SER A 57 25.196 18.552 12.082 1.00 0.00 H +ATOM 906 CA SER A 57 22.924 18.583 12.025 1.00 0.00 C +ATOM 907 HA SER A 57 22.270 19.260 11.295 1.00 0.00 H +ATOM 908 C SER A 57 22.229 18.244 13.325 1.00 0.00 C +ATOM 909 O SER A 57 20.963 18.253 13.395 1.00 0.00 O +ATOM 910 CB SER A 57 23.059 17.326 11.154 1.00 0.00 C +ATOM 911 HB2 SER A 57 23.154 17.210 9.956 1.00 0.00 H +ATOM 912 HB3 SER A 57 21.997 16.757 11.282 1.00 0.00 H +ATOM 913 OG SER A 57 23.914 16.395 11.755 1.00 0.00 O +ATOM 914 HG SER A 57 24.759 15.963 10.971 1.00 0.00 H +ATOM 915 N ASP A 58 22.997 17.978 14.366 1.00 0.00 N +ATOM 916 H ASP A 58 24.007 17.371 14.217 1.00 0.00 H +ATOM 917 CA ASP A 58 22.418 17.638 15.693 1.00 0.00 C +ATOM 918 HA ASP A 58 21.699 16.689 15.580 1.00 0.00 H +ATOM 919 C ASP A 58 21.460 18.737 16.163 1.00 0.00 C +ATOM 920 O ASP A 58 20.497 18.506 16.900 1.00 0.00 O +ATOM 921 CB ASP A 58 23.461 17.331 16.741 1.00 0.00 C +ATOM 922 HB2 ASP A 58 23.945 18.320 17.186 1.00 0.00 H +ATOM 923 HB3 ASP A 58 22.826 16.936 17.677 1.00 0.00 H +ATOM 924 CG ASP A 58 24.184 16.016 16.619 1.00 0.00 C +ATOM 925 OD1 ASP A 58 25.303 15.894 17.152 1.00 0.00 O +ATOM 926 OD2 ASP A 58 23.572 15.107 15.975 1.00 0.00 O +ATOM 927 N TYR A 59 21.846 19.954 15.905 1.00 0.00 N +ATOM 928 H TYR A 59 23.016 20.103 15.821 1.00 0.00 H +ATOM 929 CA TYR A 59 21.079 21.149 16.251 1.00 0.00 C +ATOM 930 HA TYR A 59 20.280 20.921 17.107 1.00 0.00 H +ATOM 931 C TYR A 59 20.142 21.590 15.149 1.00 0.00 C +ATOM 932 O TYR A 59 19.499 22.645 15.321 1.00 0.00 O +ATOM 933 CB TYR A 59 22.085 22.254 16.581 1.00 0.00 C +ATOM 934 HB2 TYR A 59 21.435 23.194 16.917 1.00 0.00 H +ATOM 935 HB3 TYR A 59 22.847 22.502 15.707 1.00 0.00 H +ATOM 936 CG TYR A 59 22.945 21.951 17.785 1.00 0.00 C +ATOM 937 CD1 TYR A 59 24.272 21.544 17.644 1.00 0.00 C +ATOM 938 HD1 TYR A 59 24.950 21.751 16.696 1.00 0.00 H +ATOM 939 CD2 TYR A 59 22.437 22.157 19.065 1.00 0.00 C +ATOM 940 HD2 TYR A 59 21.255 22.134 19.208 1.00 0.00 H +ATOM 941 CE1 TYR A 59 25.052 21.285 18.776 1.00 0.00 C +ATOM 942 HE1 TYR A 59 26.195 21.139 18.524 1.00 0.00 H +ATOM 943 CE2 TYR A 59 23.204 21.907 20.192 1.00 0.00 C +ATOM 944 HE2 TYR A 59 22.518 21.383 21.013 1.00 0.00 H +ATOM 945 CZ TYR A 59 24.517 21.470 20.030 1.00 0.00 C +ATOM 946 OH TYR A 59 25.248 21.302 21.191 1.00 0.00 O +ATOM 947 HH TYR A 59 24.554 21.063 22.133 1.00 0.00 H +ATOM 948 N ASN A 60 19.993 20.884 14.049 1.00 0.00 N +ATOM 949 H ASN A 60 20.625 20.036 13.540 1.00 0.00 H +ATOM 950 CA ASN A 60 19.065 21.352 12.999 1.00 0.00 C +ATOM 951 HA ASN A 60 19.141 20.626 12.057 1.00 0.00 H +ATOM 952 C ASN A 60 19.442 22.745 12.510 1.00 0.00 C +ATOM 953 O ASN A 60 18.571 23.610 12.289 1.00 0.00 O +ATOM 954 CB ASN A 60 17.586 21.282 13.461 1.00 0.00 C +ATOM 955 HB2 ASN A 60 17.204 22.125 14.212 1.00 0.00 H +ATOM 956 HB3 ASN A 60 17.291 20.256 13.997 1.00 0.00 H +ATOM 957 CG ASN A 60 16.576 21.258 12.315 1.00 0.00 C +ATOM 958 OD1 ASN A 60 15.440 21.819 12.378 1.00 0.00 O +ATOM 959 ND2 ASN A 60 16.924 20.586 11.216 1.00 0.00 N +ATOM 960 HD21 ASN A 60 16.344 19.545 11.118 1.00 0.00 H +ATOM 961 HD22 ASN A 60 17.277 20.801 10.101 1.00 0.00 H +ATOM 962 N ILE A 61 20.717 22.964 12.260 1.00 0.00 N +ATOM 963 H ILE A 61 21.379 22.002 11.992 1.00 0.00 H +ATOM 964 CA ILE A 61 21.184 24.263 11.690 1.00 0.00 C +ATOM 965 HA ILE A 61 20.458 25.109 12.106 1.00 0.00 H +ATOM 966 C ILE A 61 21.110 24.111 10.173 1.00 0.00 C +ATOM 967 O ILE A 61 21.841 23.198 9.686 1.00 0.00 O +ATOM 968 CB ILE A 61 22.650 24.516 12.172 1.00 0.00 C +ATOM 969 HB ILE A 61 23.271 23.529 11.949 1.00 0.00 H +ATOM 970 CG1 ILE A 61 22.662 24.819 13.699 1.00 0.00 C +ATOM 971 HG12 ILE A 61 21.913 24.128 14.308 1.00 0.00 H +ATOM 972 HG13 ILE A 61 22.253 25.938 13.752 1.00 0.00 H +ATOM 973 CG2 ILE A 61 23.376 25.645 11.409 1.00 0.00 C +ATOM 974 HG21 ILE A 61 22.464 26.330 11.066 1.00 0.00 H +ATOM 975 HG22 ILE A 61 23.865 25.094 10.469 1.00 0.00 H +ATOM 976 HG23 ILE A 61 24.225 26.401 11.750 1.00 0.00 H +ATOM 977 CD1 ILE A 61 24.123 24.981 14.195 1.00 0.00 C +ATOM 978 HD11 ILE A 61 24.957 25.247 13.387 1.00 0.00 H +ATOM 979 HD12 ILE A 61 24.091 25.860 15.000 1.00 0.00 H +ATOM 980 HD13 ILE A 61 24.342 24.012 14.859 1.00 0.00 H +ATOM 981 N GLN A 62 20.291 24.875 9.507 1.00 0.00 N +ATOM 982 H GLN A 62 19.491 25.584 10.024 1.00 0.00 H +ATOM 983 CA GLN A 62 20.081 24.773 8.033 1.00 0.00 C +ATOM 984 HA GLN A 62 20.463 23.691 7.711 1.00 0.00 H +ATOM 985 C GLN A 62 20.822 25.914 7.332 1.00 0.00 C +ATOM 986 O GLN A 62 21.323 26.830 8.008 1.00 0.00 O +ATOM 987 CB GLN A 62 18.599 24.736 7.727 1.00 0.00 C +ATOM 988 HB2 GLN A 62 18.542 25.434 6.760 1.00 0.00 H +ATOM 989 HB3 GLN A 62 17.850 25.426 8.367 1.00 0.00 H +ATOM 990 CG GLN A 62 17.819 23.434 7.900 1.00 0.00 C +ATOM 991 HG2 GLN A 62 18.264 22.429 7.434 1.00 0.00 H +ATOM 992 HG3 GLN A 62 17.469 23.172 9.011 1.00 0.00 H +ATOM 993 CD GLN A 62 16.509 23.529 7.116 1.00 0.00 C +ATOM 994 OE1 GLN A 62 15.446 22.980 7.433 1.00 0.00 O +ATOM 995 NE2 GLN A 62 16.539 24.293 6.009 1.00 0.00 N +ATOM 996 HE21 GLN A 62 17.151 24.254 4.990 1.00 0.00 H +ATOM 997 HE22 GLN A 62 15.426 24.614 5.704 1.00 0.00 H +ATOM 998 N LYS A 63 20.924 25.862 6.006 1.00 0.00 N +ATOM 999 H LYS A 63 20.775 24.768 5.562 1.00 0.00 H +ATOM 1000 CA LYS A 63 21.656 26.847 5.240 1.00 0.00 C +ATOM 1001 HA LYS A 63 22.787 26.726 5.581 1.00 0.00 H +ATOM 1002 C LYS A 63 21.127 28.240 5.574 1.00 0.00 C +ATOM 1003 O LYS A 63 19.958 28.465 5.842 1.00 0.00 O +ATOM 1004 CB LYS A 63 21.631 26.642 3.731 1.00 0.00 C +ATOM 1005 HB2 LYS A 63 22.236 27.409 3.048 1.00 0.00 H +ATOM 1006 HB3 LYS A 63 22.164 25.591 3.542 1.00 0.00 H +ATOM 1007 CG LYS A 63 20.210 26.423 3.175 1.00 0.00 C +ATOM 1008 HG2 LYS A 63 19.820 25.316 3.385 1.00 0.00 H +ATOM 1009 HG3 LYS A 63 19.376 27.145 3.635 1.00 0.00 H +ATOM 1010 CD LYS A 63 20.268 26.589 1.656 1.00 0.00 C +ATOM 1011 HD2 LYS A 63 21.265 26.128 1.171 1.00 0.00 H +ATOM 1012 HD3 LYS A 63 20.231 27.724 1.285 1.00 0.00 H +ATOM 1013 CE LYS A 63 19.202 25.857 0.891 1.00 0.00 C +ATOM 1014 HE2 LYS A 63 19.514 25.952 -0.271 1.00 0.00 H +ATOM 1015 HE3 LYS A 63 19.070 24.686 1.148 1.00 0.00 H +ATOM 1016 NZ LYS A 63 17.884 26.544 1.075 1.00 0.00 N +ATOM 1017 HZ1 LYS A 63 17.195 26.028 0.230 1.00 0.00 H +ATOM 1018 HZ2 LYS A 63 17.769 27.732 0.975 1.00 0.00 H +ATOM 1019 HZ3 LYS A 63 17.328 26.298 2.108 1.00 0.00 H +ATOM 1020 N GLU A 64 22.099 29.163 5.605 1.00 0.00 N +ATOM 1021 H GLU A 64 22.778 29.107 4.639 1.00 0.00 H +ATOM 1022 CA GLU A 64 21.907 30.563 5.881 1.00 0.00 C +ATOM 1023 HA GLU A 64 22.921 31.185 5.867 1.00 0.00 H +ATOM 1024 C GLU A 64 21.466 30.953 7.261 1.00 0.00 C +ATOM 1025 O GLU A 64 21.066 32.112 7.533 1.00 0.00 O +ATOM 1026 CB GLU A 64 21.023 31.223 4.784 1.00 0.00 C +ATOM 1027 HB2 GLU A 64 19.995 30.609 4.682 1.00 0.00 H +ATOM 1028 HB3 GLU A 64 20.568 32.290 5.116 1.00 0.00 H +ATOM 1029 CG GLU A 64 21.861 31.342 3.474 1.00 0.00 C +ATOM 1030 HG2 GLU A 64 23.010 31.004 3.413 1.00 0.00 H +ATOM 1031 HG3 GLU A 64 21.688 32.453 3.005 1.00 0.00 H +ATOM 1032 CD GLU A 64 21.156 30.726 2.311 1.00 0.00 C +ATOM 1033 OE1 GLU A 64 19.942 30.793 2.170 1.00 0.00 O +ATOM 1034 OE2 GLU A 64 21.954 30.152 1.535 1.00 0.00 O +ATOM 1035 N SER A 65 21.674 30.034 8.191 1.00 0.00 N +ATOM 1036 H SER A 65 22.309 29.072 7.937 1.00 0.00 H +ATOM 1037 CA SER A 65 21.419 30.253 9.620 1.00 0.00 C +ATOM 1038 HA SER A 65 20.314 30.696 9.701 1.00 0.00 H +ATOM 1039 C SER A 65 22.504 31.228 10.136 1.00 0.00 C +ATOM 1040 O SER A 65 23.579 31.321 9.554 1.00 0.00 O +ATOM 1041 CB SER A 65 21.637 28.923 10.353 1.00 0.00 C +ATOM 1042 HB2 SER A 65 22.725 28.486 10.156 1.00 0.00 H +ATOM 1043 HB3 SER A 65 21.582 29.100 11.529 1.00 0.00 H +ATOM 1044 OG SER A 65 20.544 28.047 10.059 1.00 0.00 O +ATOM 1045 HG SER A 65 19.475 28.456 10.407 1.00 0.00 H +ATOM 1046 N THR A 66 22.241 31.873 11.241 1.00 0.00 N +ATOM 1047 H THR A 66 21.116 32.049 11.585 1.00 0.00 H +ATOM 1048 CA THR A 66 23.212 32.762 11.891 1.00 0.00 C +ATOM 1049 HA THR A 66 24.127 32.954 11.169 1.00 0.00 H +ATOM 1050 C THR A 66 23.509 32.224 13.290 1.00 0.00 C +ATOM 1051 O THR A 66 22.544 31.942 14.034 1.00 0.00 O +ATOM 1052 CB THR A 66 22.699 34.267 11.985 1.00 0.00 C +ATOM 1053 HB THR A 66 21.645 34.399 12.537 1.00 0.00 H +ATOM 1054 OG1 THR A 66 22.495 34.690 10.589 1.00 0.00 O +ATOM 1055 HG1 THR A 66 21.714 35.590 10.494 1.00 0.00 H +ATOM 1056 CG2 THR A 66 23.727 35.131 12.722 1.00 0.00 C +ATOM 1057 HG21 THR A 66 23.488 36.214 12.258 1.00 0.00 H +ATOM 1058 HG22 THR A 66 23.287 35.133 13.836 1.00 0.00 H +ATOM 1059 HG23 THR A 66 24.903 34.979 12.658 1.00 0.00 H +ATOM 1060 N LEU A 67 24.790 32.021 13.618 1.00 0.00 N +ATOM 1061 H LEU A 67 25.802 32.050 13.016 1.00 0.00 H +ATOM 1062 CA LEU A 67 25.149 31.609 14.980 1.00 0.00 C +ATOM 1063 HA LEU A 67 24.159 31.401 15.606 1.00 0.00 H +ATOM 1064 C LEU A 67 25.698 32.876 15.669 1.00 0.00 C +ATOM 1065 O LEU A 67 26.158 33.730 14.894 1.00 0.00 O +ATOM 1066 CB LEU A 67 26.310 30.594 14.967 1.00 0.00 C +ATOM 1067 HB2 LEU A 67 26.262 30.018 16.013 1.00 0.00 H +ATOM 1068 HB3 LEU A 67 27.357 31.160 14.935 1.00 0.00 H +ATOM 1069 CG LEU A 67 26.290 29.480 13.960 1.00 0.00 C +ATOM 1070 HG LEU A 67 26.540 29.916 12.882 1.00 0.00 H +ATOM 1071 CD1 LEU A 67 27.393 28.442 14.229 1.00 0.00 C +ATOM 1072 HD11 LEU A 67 27.131 27.389 14.730 1.00 0.00 H +ATOM 1073 HD12 LEU A 67 28.318 28.871 14.840 1.00 0.00 H +ATOM 1074 HD13 LEU A 67 27.898 28.077 13.211 1.00 0.00 H +ATOM 1075 CD2 LEU A 67 24.942 28.807 13.952 1.00 0.00 C +ATOM 1076 HD21 LEU A 67 23.930 29.298 14.338 1.00 0.00 H +ATOM 1077 HD22 LEU A 67 25.064 27.806 14.580 1.00 0.00 H +ATOM 1078 HD23 LEU A 67 24.681 28.638 12.798 1.00 0.00 H +ATOM 1079 N HIS A 68 25.621 32.945 16.950 1.00 0.00 N +ATOM 1080 H HIS A 68 25.848 31.931 17.517 1.00 0.00 H +ATOM 1081 CA HIS A 68 26.179 34.127 17.650 1.00 0.00 C +ATOM 1082 HA HIS A 68 26.228 35.096 16.968 1.00 0.00 H +ATOM 1083 C HIS A 68 27.475 33.651 18.304 1.00 0.00 C +ATOM 1084 O HIS A 68 27.507 32.587 18.958 1.00 0.00 O +ATOM 1085 CB HIS A 68 25.214 34.565 18.780 1.00 0.00 C +ATOM 1086 HB2 HIS A 68 24.709 34.058 19.737 1.00 0.00 H +ATOM 1087 HB3 HIS A 68 25.652 35.547 19.308 1.00 0.00 H +ATOM 1088 CG HIS A 68 23.978 35.121 18.126 1.00 0.00 C +ATOM 1089 ND1 HIS A 68 23.853 36.432 17.781 1.00 0.00 N +ATOM 1090 HD1 HIS A 68 24.189 37.408 18.373 1.00 0.00 H +ATOM 1091 CD2 HIS A 68 22.824 34.514 17.782 1.00 0.00 C +ATOM 1092 HD2 HIS A 68 21.987 33.751 18.130 1.00 0.00 H +ATOM 1093 CE1 HIS A 68 22.674 36.627 17.200 1.00 0.00 C +ATOM 1094 HE1 HIS A 68 21.791 37.418 17.262 1.00 0.00 H +ATOM 1095 NE2 HIS A 68 22.045 35.455 17.173 1.00 0.00 N +ATOM 1096 N LEU A 69 28.525 34.447 18.189 1.00 0.00 N +ATOM 1097 H LEU A 69 28.163 35.541 18.471 1.00 0.00 H +ATOM 1098 CA LEU A 69 29.801 34.145 18.829 1.00 0.00 C +ATOM 1099 HA LEU A 69 29.750 33.030 19.223 1.00 0.00 H +ATOM 1100 C LEU A 69 30.052 35.042 20.004 1.00 0.00 C +ATOM 1101 O LEU A 69 30.105 36.305 19.788 1.00 0.00 O +ATOM 1102 CB LEU A 69 30.925 34.304 17.753 1.00 0.00 C +ATOM 1103 HB2 LEU A 69 30.769 33.365 17.036 1.00 0.00 H +ATOM 1104 HB3 LEU A 69 30.799 35.352 17.208 1.00 0.00 H +ATOM 1105 CG LEU A 69 32.345 34.183 18.358 1.00 0.00 C +ATOM 1106 HG LEU A 69 32.426 35.147 19.052 1.00 0.00 H +ATOM 1107 CD1 LEU A 69 32.555 32.783 18.870 1.00 0.00 C +ATOM 1108 HD11 LEU A 69 31.710 32.026 19.231 1.00 0.00 H +ATOM 1109 HD12 LEU A 69 33.254 32.977 19.808 1.00 0.00 H +ATOM 1110 HD13 LEU A 69 33.130 32.182 18.012 1.00 0.00 H +ATOM 1111 CD2 LEU A 69 33.361 34.491 17.245 1.00 0.00 C +ATOM 1112 HD21 LEU A 69 33.423 35.648 16.946 1.00 0.00 H +ATOM 1113 HD22 LEU A 69 33.310 33.949 16.183 1.00 0.00 H +ATOM 1114 HD23 LEU A 69 34.388 34.280 17.816 1.00 0.00 H +ATOM 1115 N VAL A 70 30.124 34.533 21.191 1.00 0.00 N +ATOM 1116 H VAL A 70 29.339 33.700 21.551 1.00 0.00 H +ATOM 1117 CA VAL A 70 30.479 35.369 22.374 1.00 0.00 C +ATOM 1118 HA VAL A 70 30.570 36.539 22.174 1.00 0.00 H +ATOM 1119 C VAL A 70 31.901 34.910 22.728 1.00 0.00 C +ATOM 1120 O VAL A 70 32.190 33.696 22.635 1.00 0.00 O +ATOM 1121 CB VAL A 70 29.472 35.181 23.498 1.00 0.00 C +ATOM 1122 HB VAL A 70 29.397 34.114 24.015 1.00 0.00 H +ATOM 1123 CG1 VAL A 70 29.821 35.957 24.765 1.00 0.00 C +ATOM 1124 HG11 VAL A 70 30.481 36.957 24.747 1.00 0.00 H +ATOM 1125 HG12 VAL A 70 28.880 36.390 25.376 1.00 0.00 H +ATOM 1126 HG13 VAL A 70 30.412 35.311 25.585 1.00 0.00 H +ATOM 1127 CG2 VAL A 70 28.049 35.454 23.071 1.00 0.00 C +ATOM 1128 HG21 VAL A 70 27.418 34.497 22.735 1.00 0.00 H +ATOM 1129 HG22 VAL A 70 27.307 35.968 23.860 1.00 0.00 H +ATOM 1130 HG23 VAL A 70 27.945 36.211 22.151 1.00 0.00 H +ATOM 1131 N LEU A 71 32.763 35.831 23.090 1.00 0.00 N +ATOM 1132 H LEU A 71 32.603 36.997 23.269 1.00 0.00 H +ATOM 1133 CA LEU A 71 34.145 35.472 23.481 1.00 0.00 C +ATOM 1134 HA LEU A 71 34.193 34.305 23.284 1.00 0.00 H +ATOM 1135 C LEU A 71 34.239 35.353 24.979 1.00 0.00 C +ATOM 1136 O LEU A 71 33.707 36.197 25.728 1.00 0.00 O +ATOM 1137 CB LEU A 71 35.114 36.564 22.907 1.00 0.00 C +ATOM 1138 HB2 LEU A 71 35.666 36.969 23.897 1.00 0.00 H +ATOM 1139 HB3 LEU A 71 34.668 37.589 22.464 1.00 0.00 H +ATOM 1140 CG LEU A 71 35.926 35.979 21.737 1.00 0.00 C +ATOM 1141 HG LEU A 71 36.865 35.410 22.185 1.00 0.00 H +ATOM 1142 CD1 LEU A 71 35.003 35.084 20.920 1.00 0.00 C +ATOM 1143 HD11 LEU A 71 34.688 35.863 20.064 1.00 0.00 H +ATOM 1144 HD12 LEU A 71 33.927 34.635 21.145 1.00 0.00 H +ATOM 1145 HD13 LEU A 71 35.689 34.166 20.600 1.00 0.00 H +ATOM 1146 CD2 LEU A 71 36.533 37.087 20.917 1.00 0.00 C +ATOM 1147 HD21 LEU A 71 37.574 36.957 20.340 1.00 0.00 H +ATOM 1148 HD22 LEU A 71 35.881 37.681 20.100 1.00 0.00 H +ATOM 1149 HD23 LEU A 71 36.810 38.009 21.642 1.00 0.00 H +ATOM 1150 N ARG A 72 34.930 34.384 25.451 1.00 0.00 N +ATOM 1151 H ARG A 72 35.941 34.253 24.850 1.00 0.00 H +ATOM 1152 CA ARG A 72 35.161 34.174 26.896 1.00 0.00 C +ATOM 1153 HA ARG A 72 34.559 34.922 27.605 1.00 0.00 H +ATOM 1154 C ARG A 72 36.671 34.296 27.089 1.00 0.00 C +ATOM 1155 O ARG A 72 37.305 33.233 26.795 1.00 0.00 O +ATOM 1156 CB ARG A 72 34.717 32.760 27.286 1.00 0.00 C +ATOM 1157 HB2 ARG A 72 33.792 32.907 28.041 1.00 0.00 H +ATOM 1158 HB3 ARG A 72 34.060 32.344 26.382 1.00 0.00 H +ATOM 1159 CG ARG A 72 35.752 32.054 28.160 1.00 0.00 C +ATOM 1160 HG2 ARG A 72 35.401 32.397 29.261 1.00 0.00 H +ATOM 1161 HG3 ARG A 72 36.916 32.091 28.445 1.00 0.00 H +ATOM 1162 CD ARG A 72 35.612 30.577 28.044 1.00 0.00 C +ATOM 1163 HD2 ARG A 72 36.619 29.941 28.156 1.00 0.00 H +ATOM 1164 HD3 ARG A 72 35.036 30.269 29.047 1.00 0.00 H +ATOM 1165 NE ARG A 72 35.040 30.252 26.730 1.00 0.00 N +ATOM 1166 HE ARG A 72 35.440 30.594 25.671 1.00 0.00 H +ATOM 1167 CZ ARG A 72 34.338 29.103 26.650 1.00 0.00 C +ATOM 1168 NH1 ARG A 72 34.110 28.437 27.768 1.00 0.00 N +ATOM 1169 HH11 ARG A 72 33.281 28.609 28.605 1.00 0.00 H +ATOM 1170 HH12 ARG A 72 34.473 27.299 27.860 1.00 0.00 H +ATOM 1171 NH2 ARG A 72 34.014 28.657 25.457 1.00 0.00 N +ATOM 1172 HH21 ARG A 72 34.800 27.988 24.867 1.00 0.00 H +ATOM 1173 HH22 ARG A 72 33.020 28.001 25.472 1.00 0.00 H +ATOM 1174 N LEU A 73 37.197 35.397 27.513 1.00 0.00 N +ATOM 1175 H LEU A 73 36.548 36.144 28.175 1.00 0.00 H +ATOM 1176 CA LEU A 73 38.668 35.502 27.680 1.00 0.00 C +ATOM 1177 HA LEU A 73 39.282 34.798 26.944 1.00 0.00 H +ATOM 1178 C LEU A 73 39.076 34.931 29.031 1.00 0.00 C +ATOM 1179 O LEU A 73 38.297 34.946 29.996 1.00 0.00 O +ATOM 1180 CB LEU A 73 39.080 36.941 27.406 1.00 0.00 C +ATOM 1181 HB2 LEU A 73 39.993 37.207 28.133 1.00 0.00 H +ATOM 1182 HB3 LEU A 73 38.254 37.668 27.878 1.00 0.00 H +ATOM 1183 CG LEU A 73 39.502 37.340 26.002 1.00 0.00 C +ATOM 1184 HG LEU A 73 40.681 37.187 25.864 1.00 0.00 H +ATOM 1185 CD1 LEU A 73 38.684 36.647 24.923 1.00 0.00 C +ATOM 1186 HD11 LEU A 73 37.876 35.805 25.164 1.00 0.00 H +ATOM 1187 HD12 LEU A 73 38.137 37.554 24.347 1.00 0.00 H +ATOM 1188 HD13 LEU A 73 39.628 36.479 24.210 1.00 0.00 H +ATOM 1189 CD2 LEU A 73 39.337 38.854 25.862 1.00 0.00 C +ATOM 1190 HD21 LEU A 73 39.376 39.329 24.757 1.00 0.00 H +ATOM 1191 HD22 LEU A 73 38.370 39.386 26.340 1.00 0.00 H +ATOM 1192 HD23 LEU A 73 40.264 39.421 26.375 1.00 0.00 H +ATOM 1193 N ARG A 74 40.294 34.412 29.045 1.00 0.00 N +ATOM 1194 H ARG A 74 41.172 34.716 28.302 1.00 0.00 H +ATOM 1195 CA ARG A 74 40.873 33.802 30.253 1.00 0.00 C +ATOM 1196 HA ARG A 74 40.009 33.440 30.991 1.00 0.00 H +ATOM 1197 C ARG A 74 41.765 34.829 30.944 1.00 0.00 C +ATOM 1198 O ARG A 74 42.945 34.994 30.583 1.00 0.00 O +ATOM 1199 CB ARG A 74 41.651 32.529 29.923 1.00 0.00 C +ATOM 1200 HB2 ARG A 74 42.782 32.822 29.672 1.00 0.00 H +ATOM 1201 HB3 ARG A 74 41.207 32.119 28.892 1.00 0.00 H +ATOM 1202 CG ARG A 74 41.608 31.444 30.989 1.00 0.00 C +ATOM 1203 HG2 ARG A 74 42.398 31.761 31.830 1.00 0.00 H +ATOM 1204 HG3 ARG A 74 40.637 31.284 31.671 1.00 0.00 H +ATOM 1205 CD ARG A 74 41.896 30.080 30.456 1.00 0.00 C +ATOM 1206 HD2 ARG A 74 41.660 28.918 30.724 1.00 0.00 H +ATOM 1207 HD3 ARG A 74 40.917 30.048 29.744 1.00 0.00 H +ATOM 1208 NE ARG A 74 43.311 29.735 30.563 1.00 0.00 N +ATOM 1209 HE ARG A 74 43.713 29.205 31.549 1.00 0.00 H +ATOM 1210 CZ ARG A 74 44.174 29.905 29.554 1.00 0.00 C +ATOM 1211 NH1 ARG A 74 43.754 30.312 28.356 1.00 0.00 N +ATOM 1212 HH11 ARG A 74 43.551 29.450 27.555 1.00 0.00 H +ATOM 1213 HH12 ARG A 74 44.181 31.281 27.814 1.00 0.00 H +ATOM 1214 NH2 ARG A 74 45.477 29.726 29.763 1.00 0.00 N +ATOM 1215 HH21 ARG A 74 46.070 28.781 29.345 1.00 0.00 H +ATOM 1216 HH22 ARG A 74 46.237 30.435 30.341 1.00 0.00 H +ATOM 1217 N GLY A 75 41.165 35.531 31.898 1.00 0.00 N +ATOM 1218 H GLY A 75 40.092 35.353 32.377 1.00 0.00 H +ATOM 1219 CA GLY A 75 41.845 36.550 32.686 1.00 0.00 C +ATOM 1220 HA2 GLY A 75 41.960 36.069 33.776 1.00 0.00 H +ATOM 1221 HA3 GLY A 75 42.938 36.779 32.239 1.00 0.00 H +ATOM 1222 C GLY A 75 41.251 37.941 32.588 1.00 0.00 C +ATOM 1223 O GLY A 75 41.102 38.523 31.500 1.00 0.00 O +ATOM 1224 N GLY A 76 40.946 38.472 33.757 1.00 0.00 N +ATOM 1225 H GLY A 76 41.132 37.871 34.764 1.00 0.00 H +ATOM 1226 CA GLY A 76 40.373 39.813 33.944 1.00 0.00 C +ATOM 1227 HA2 GLY A 76 39.314 40.020 33.437 1.00 0.00 H +ATOM 1228 HA3 GLY A 76 41.217 40.620 33.700 1.00 0.00 H +ATOM 1229 C GLY A 76 40.031 39.992 35.432 1.00 0.00 C +ATOM 1230 O GLY A 76 38.933 40.525 35.687 1.00 0.00 O +ATOM 1231 OXT GLY A 76 40.862 39.575 36.251 1.00 0.00 O +TER 1232 GLY A 76 +END diff --git a/src/chilife/RotamerEnsemble.py b/src/chilife/RotamerEnsemble.py index 9521ed2..9d0e133 100644 --- a/src/chilife/RotamerEnsemble.py +++ b/src/chilife/RotamerEnsemble.py @@ -4,7 +4,6 @@ from copy import deepcopy from functools import partial from pathlib import Path -import logging import numpy as np from numpy.typing import ArrayLike from itertools import combinations @@ -117,7 +116,7 @@ def __init__(self, res, site=None, protein=None, chain=None, rotlib=None, **kwar site = 1 icode = "" elif isinstance(site, str): - site_split = re.split('(\D+)',site) + site_split = re.split(r'(\D+)',site) site = site_split[0] icode = site_split[1] if len(site_split) > 1 else "" else: @@ -132,6 +131,7 @@ def __init__(self, res, site=None, protein=None, chain=None, rotlib=None, **kwar self.nataa = "" self.input_kwargs = kwargs self.__dict__.update(assign_defaults(kwargs)) + self.input_kwargs.pop('energy_func', None) self.protein = protein # Convert string arguments for alignment_method to respective function @@ -979,11 +979,6 @@ def trim_rotamers(self, keep_idx: ArrayLike = None) -> None: # normalize weights self.weights /= self.weights.sum() - logging.info( - f"{len(self.weights)} of {len(self._weights)} {self.res} rotamers make up at least " - f"{100 * (1-self.trim_tol):.2f}% of rotamer density for site {self.site}" - ) - @property def centroid(self): """Get the centroid of the whole rotamer ensemble.""" @@ -997,7 +992,6 @@ def evaluate(self): # Calculate total weights (combining internal and external) self.weights, self.partition = scoring.reweight_rotamers(energies, self.temp, self.weights) - logging.info(f"Relative partition function: {self.partition:.3}") # Remove low-weight rotamers from ensemble if self._do_trim: @@ -1070,7 +1064,6 @@ def get_lib(self, rotlib): self.Phi, self.Psi = Phi, Psi # Get library - logging.info(f"Using backbone dependent library with Phi={Phi}, Psi={Psi}") cwd = Path().cwd() was_none = True if rotlib is None else False diff --git a/src/chilife/__init__.py b/src/chilife/__init__.py index 518ea62..5a526ff 100644 --- a/src/chilife/__init__.py +++ b/src/chilife/__init__.py @@ -26,4 +26,4 @@ # SpinLabel = SpinLabel.SpinLabel # dSpinLabel = dSpinLabel.dSpinLabel -__version__ = '1.1.2' +__version__ = '1.1.3' diff --git a/src/chilife/chilife.py b/src/chilife/chilife.py index bb0fafe..b2bbde2 100644 --- a/src/chilife/chilife.py +++ b/src/chilife/chilife.py @@ -1482,9 +1482,7 @@ def repack( if repack_radius is None: repack_radius = max([SL.clash_radius for SL in spin_labels]) # Construct a new spin labeled protein and preallocate variables to retain monte carlo trajectory - spin_label_str = " or ".join( - f"( {spin_label.selstr} )" for spin_label in spin_labels - ) + spin_label_str = " or ".join(f"( {spin_label.selstr} )" for spin_label in spin_labels) protein = mutate(protein, *spin_labels, **kwargs).atoms # Determine the residues near the spin label that will be repacked @@ -1518,43 +1516,31 @@ def repack( traj = np.empty((repetitions, *protein.positions.shape)) deltaEs = [] - sample_freq = np.array( - [len(res.dihedral_atoms) for res in repack_residue_libraries], dtype=np.float64 - ) + + sample_freq = np.array([len(res.dihedral_atoms) for res in repack_residue_libraries], dtype=np.float64) mean = sample_freq[sample_freq > 1].mean() sample_freq[sample_freq == 1] = mean sample_freq /= sample_freq.sum() - count = 0 - acount = 0 - bcount = 0 - bidx = 0 + count, acount, bcount, bidx = 0, 0, 0, 0 schedule = repetitions / (len(temp) + 1) with tqdm(total=repetitions) as pbar: while count < repetitions: # Randomly select a residue from the repacked residues - SiteLibrary = repack_residue_libraries[ - np.random.choice(len(repack_residue_libraries), p=sample_freq) - ] + SiteLibrary = repack_residue_libraries[np.random.choice(len(repack_residue_libraries), p=sample_freq)] if not hasattr(SiteLibrary, "dummy_label"): SiteLibrary.dummy_label = SiteLibrary.copy() SiteLibrary.dummy_label._protein = protein - SiteLibrary.dummy_label.mask = np.isin( - protein.ix, SiteLibrary.clash_ignore_idx - ) - SiteLibrary.dummy_label._coords = np.atleast_3d( - [protein.atoms[SiteLibrary.dummy_label.mask].positions] - ) + SiteLibrary.dummy_label.mask = np.isin(protein.ix, SiteLibrary.clash_ignore_idx) + SiteLibrary.dummy_label._coords = np.atleast_3d([protein.atoms[SiteLibrary.dummy_label.mask].positions]) with np.errstate(divide="ignore"): SiteLibrary.dummy_label.E0 = energy_func(SiteLibrary.dummy_label) - \ KT[temp[bidx]] * np.log(SiteLibrary.current_weight) DummyLabel = SiteLibrary.dummy_label - coords, weight = SiteLibrary.sample(off_rotamer=off_rotamer) - with np.errstate(divide="ignore"): DummyLabel._coords = np.atleast_3d([coords]) E1 = energy_func(DummyLabel) - KT[temp[bidx]] * np.log(weight) @@ -1564,18 +1550,10 @@ def repack( acount += 1 # Metropolis-Hastings criteria - if (E1 < DummyLabel.E0 or np.exp(-deltaE / KT[temp[bidx]]) > np.random.rand()): deltaEs.append(deltaE) - try: - protein.atoms[DummyLabel.mask].positions = coords - DummyLabel.E0 = E1 - - except ValueError as err: - print(SiteLibrary.name) - print(SiteLibrary.atom_names) - - raise ValueError(err) + protein.atoms[DummyLabel.mask].positions = coords + DummyLabel.E0 = E1 traj[count] = protein.atoms.positions SiteLibrary.update_weight(weight) @@ -1585,8 +1563,6 @@ def repack( if bcount > schedule: bcount = 0 bidx = np.minimum(bidx + 1, len(temp) - 1) - else: - continue logging.info(f"Total counts: {acount}") diff --git a/src/chilife/protein_utils.py b/src/chilife/protein_utils.py index fa6c67d..b536410 100644 --- a/src/chilife/protein_utils.py +++ b/src/chilife/protein_utils.py @@ -480,8 +480,9 @@ def mutate( *ensembles: 'RotamerEnsemble', add_missing_atoms: bool = True, rotamer_index: Union[int, str, None] = None, - ignore_waters = True -) -> MDAnalysis.Universe: + use_H: bool = None, + ignore_waters: bool = None + ) -> MDAnalysis.Universe: """Create a new Universe where the native residue is replaced with the highest probability rotamer from a RotamerEnsemble or SpinLabel object. @@ -511,24 +512,19 @@ def mutate( if isinstance(lib, (re.RotamerEnsemble, dre.dRotamerEnsemble)): temp_ensemble.append(lib) else: - raise TypeError( - f"mutate only accepts RotamerEnsemble, SpinLabel and dSpinLabel objects, not {lib}." - ) + raise TypeError(f"mutate only accepts (d)RotamerEnsemble and (d)SpinLabel objects, not {lib}.") ensembles = temp_ensemble if add_missing_atoms: - if len(ensembles) > 0 and all(not hasattr(lib, "H_mask") for lib in ensembles): - use_H = True - elif any(not hasattr(lib, "H_mask") for lib in ensembles): - raise AttributeError( - "User provided some ensembles with hydrogen atoms and some without. Make sure all " - "ensembles either do or do not use hydrogen" - ) - else: - use_H = False + use_H = use_H if use_H is not None else param_from_rotlibs('use_H', ensembles) + ignore_waters = ignore_waters if ignore_waters is not None else param_from_rotlibs('ignore_waters', ensembles) + + missing_residues = get_missing_residues(protein, + ignore={res.site for res in ensembles}, + use_H=use_H, + ignore_waters=ignore_waters) - missing_residues = get_missing_residues(protein, ignore={res.site for res in ensembles}, use_H=use_H, ignore_waters=ignore_waters) ensembles = list(ensembles) + missing_residues label_sites = {} @@ -671,6 +667,41 @@ def randomize_rotamers( protein.atoms[~mask].positions = coords +def param_from_rotlibs(param: str, ensembles: List['RotamerEnsemble']): + """ + Get the value of a parameter used across a set of rotamer ensembles if that parameter is consistent. If the + parameter is not the same value for all rotamer ensembles, an AttributeError will be thrown. + Parameters + ---------- + param : str + The name of the parameter. + ensembles : List[RotamerEnsembles] + The rotamer ensembles to search for the parameter int + + Returns + ------- + param_value: Any + The value of the parameter across all the rotamer libarries. + """ + # If there are no residues being mutated just return defaults + if len(ensembles) == 0: + defaults = {} + defaults.update(re.assign_defaults(defaults)) + return defaults[param] + + # Otherise check to make sure they are all the same + ensemble_params = [getattr(ensemble, param, None) for ensemble in ensembles] + if all(e == ensemble_params[0] for e in ensemble_params[1:]): + param_value = ensemble_params[0] + return param_value + + # And return an error if they are not + else: + raise AttributeError(f"User provided ensembles with different {param} parameters. Make sure all " + f"ensembles use the same value for {param}") + + + def get_sas_res( protein: Union[mda.Universe, mda.AtomGroup], cutoff: float = 30, diff --git a/tests/test_data/cnct.pdb b/tests/test_data/cnct.pdb index 58738e8..0cbbbe5 100644 --- a/tests/test_data/cnct.pdb +++ b/tests/test_data/cnct.pdb @@ -2840,27 +2840,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.116 1.325 -2.287 0.00 1.00 S -ATOM 6 SD R1M A 1 2.154 2.892 -1.383 0.00 1.00 S -ATOM 7 CE R1M A 1 3.935 2.498 -1.778 0.00 1.00 C -ATOM 8 C3 R1M A 1 4.552 3.662 -2.493 0.00 1.00 C -ATOM 9 C4 R1M A 1 4.986 4.792 -1.909 0.00 1.00 C -ATOM 10 C2 R1M A 1 4.764 3.692 -4.003 0.00 1.00 C -ATOM 11 C5 R1M A 1 5.570 5.786 -2.880 0.00 1.00 C -ATOM 12 N1 R1M A 1 5.399 5.032 -4.150 0.00 1.00 N -ATOM 13 C9 R1M A 1 5.726 2.618 -4.542 0.00 1.00 C -ATOM 14 C8 R1M A 1 3.443 3.672 -4.795 0.00 1.00 C -ATOM 15 C7 R1M A 1 7.065 6.065 -2.640 0.00 1.00 C -ATOM 16 C6 R1M A 1 4.780 7.105 -2.949 0.00 1.00 C -ATOM 17 O1 R1M A 1 5.747 5.500 -5.271 0.00 1.00 O -TER -ENDMDL -MODEL 136 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 2.858 0.071 -0.247 0.00 1.00 S ATOM 6 SD R1M A 1 3.352 -1.950 -0.102 0.00 1.00 S ATOM 7 CE R1M A 1 4.291 -2.268 -1.684 0.00 1.00 C @@ -2876,6 +2855,27 @@ ATOM 16 C6 R1M A 1 4.223 -6.895 -3.057 0.00 1.00 C ATOM 17 O1 R1M A 1 2.284 -5.502 -4.846 0.00 1.00 O TER ENDMDL +MODEL 136 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.116 1.325 -2.287 0.00 1.00 S +ATOM 6 SD R1M A 1 2.154 2.892 -1.383 0.00 1.00 S +ATOM 7 CE R1M A 1 3.935 2.498 -1.778 0.00 1.00 C +ATOM 8 C3 R1M A 1 4.552 3.662 -2.493 0.00 1.00 C +ATOM 9 C4 R1M A 1 4.986 4.792 -1.909 0.00 1.00 C +ATOM 10 C2 R1M A 1 4.764 3.692 -4.003 0.00 1.00 C +ATOM 11 C5 R1M A 1 5.570 5.786 -2.880 0.00 1.00 C +ATOM 12 N1 R1M A 1 5.399 5.032 -4.150 0.00 1.00 N +ATOM 13 C9 R1M A 1 5.726 2.618 -4.542 0.00 1.00 C +ATOM 14 C8 R1M A 1 3.443 3.672 -4.795 0.00 1.00 C +ATOM 15 C7 R1M A 1 7.065 6.065 -2.640 0.00 1.00 C +ATOM 16 C6 R1M A 1 4.780 7.105 -2.949 0.00 1.00 C +ATOM 17 O1 R1M A 1 5.747 5.500 -5.271 0.00 1.00 O +TER +ENDMDL MODEL 137 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3155,27 +3155,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.073 -1.209 -2.370 0.00 1.00 S -ATOM 6 SD R1M A 1 2.695 -0.675 -3.567 0.00 1.00 S -ATOM 7 CE R1M A 1 1.996 0.682 -4.642 0.00 1.00 C -ATOM 8 C3 R1M A 1 3.047 1.725 -4.868 0.00 1.00 C -ATOM 9 C4 R1M A 1 3.417 2.663 -3.980 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.836 1.840 -6.169 0.00 1.00 C -ATOM 11 C5 R1M A 1 4.508 3.572 -4.485 0.00 1.00 C -ATOM 12 N1 R1M A 1 4.713 2.998 -5.841 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.715 0.621 -6.501 0.00 1.00 C -ATOM 14 C8 R1M A 1 2.952 2.205 -7.377 0.00 1.00 C -ATOM 15 C7 R1M A 1 5.813 3.466 -3.673 0.00 1.00 C -ATOM 16 C6 R1M A 1 4.067 5.043 -4.604 0.00 1.00 C -ATOM 17 O1 R1M A 1 5.553 3.470 -6.659 0.00 1.00 O -TER -ENDMDL -MODEL 151 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 1.310 1.513 -2.056 0.00 1.00 S ATOM 6 SD R1M A 1 -0.353 1.333 -3.301 0.00 1.00 S ATOM 7 CE R1M A 1 0.349 1.685 -4.994 0.00 1.00 C @@ -3191,6 +3170,27 @@ ATOM 16 C6 R1M A 1 4.145 -0.869 -6.535 0.00 1.00 C ATOM 17 O1 R1M A 1 1.742 -2.440 -7.347 0.00 1.00 O TER ENDMDL +MODEL 151 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.073 -1.209 -2.370 0.00 1.00 S +ATOM 6 SD R1M A 1 2.695 -0.675 -3.567 0.00 1.00 S +ATOM 7 CE R1M A 1 1.996 0.682 -4.642 0.00 1.00 C +ATOM 8 C3 R1M A 1 3.047 1.725 -4.868 0.00 1.00 C +ATOM 9 C4 R1M A 1 3.417 2.663 -3.980 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.836 1.840 -6.169 0.00 1.00 C +ATOM 11 C5 R1M A 1 4.508 3.572 -4.485 0.00 1.00 C +ATOM 12 N1 R1M A 1 4.713 2.998 -5.841 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.715 0.621 -6.501 0.00 1.00 C +ATOM 14 C8 R1M A 1 2.952 2.205 -7.377 0.00 1.00 C +ATOM 15 C7 R1M A 1 5.813 3.466 -3.673 0.00 1.00 C +ATOM 16 C6 R1M A 1 4.067 5.043 -4.604 0.00 1.00 C +ATOM 17 O1 R1M A 1 5.553 3.470 -6.659 0.00 1.00 O +TER +ENDMDL MODEL 152 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3596,27 +3596,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.113 -1.261 -2.325 0.00 1.00 S -ATOM 6 SD R1M A 1 3.119 -1.786 -2.538 0.00 1.00 S -ATOM 7 CE R1M A 1 3.304 -3.226 -1.363 0.00 1.00 C -ATOM 8 C3 R1M A 1 2.849 -4.481 -2.042 0.00 1.00 C -ATOM 9 C4 R1M A 1 1.575 -4.899 -2.131 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.808 -5.448 -2.729 0.00 1.00 C -ATOM 11 C5 R1M A 1 1.419 -6.196 -2.883 0.00 1.00 C -ATOM 12 N1 R1M A 1 2.840 -6.469 -3.222 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.570 -4.859 -3.929 0.00 1.00 C -ATOM 14 C8 R1M A 1 4.790 -6.117 -1.749 0.00 1.00 C -ATOM 15 C7 R1M A 1 0.596 -6.055 -4.176 0.00 1.00 C -ATOM 16 C6 R1M A 1 0.864 -7.341 -2.014 0.00 1.00 C -ATOM 17 O1 R1M A 1 3.203 -7.498 -3.860 0.00 1.00 O -TER -ENDMDL -MODEL 172 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 2.858 -0.057 -0.249 0.00 1.00 S ATOM 6 SD R1M A 1 3.370 1.960 -0.111 0.00 1.00 S ATOM 7 CE R1M A 1 4.094 2.327 -1.792 0.00 1.00 C @@ -3632,6 +3611,27 @@ ATOM 16 C6 R1M A 1 8.845 3.177 -1.713 0.00 1.00 C ATOM 17 O1 R1M A 1 8.548 0.393 -2.746 0.00 1.00 O TER ENDMDL +MODEL 172 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 1.113 -1.261 -2.325 0.00 1.00 S +ATOM 6 SD R1M A 1 3.119 -1.786 -2.538 0.00 1.00 S +ATOM 7 CE R1M A 1 3.304 -3.226 -1.363 0.00 1.00 C +ATOM 8 C3 R1M A 1 2.849 -4.481 -2.042 0.00 1.00 C +ATOM 9 C4 R1M A 1 1.575 -4.899 -2.131 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.808 -5.448 -2.729 0.00 1.00 C +ATOM 11 C5 R1M A 1 1.419 -6.196 -2.883 0.00 1.00 C +ATOM 12 N1 R1M A 1 2.840 -6.469 -3.222 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.570 -4.859 -3.929 0.00 1.00 C +ATOM 14 C8 R1M A 1 4.790 -6.117 -1.749 0.00 1.00 C +ATOM 15 C7 R1M A 1 0.596 -6.055 -4.176 0.00 1.00 C +ATOM 16 C6 R1M A 1 0.864 -7.341 -2.014 0.00 1.00 C +ATOM 17 O1 R1M A 1 3.203 -7.498 -3.860 0.00 1.00 O +TER +ENDMDL MODEL 173 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C @@ -3995,19 +3995,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 0.880 -0.852 -2.594 0.00 1.00 S -ATOM 6 SD R1M A 1 2.065 0.237 -3.920 0.00 1.00 S -ATOM 7 CE R1M A 1 0.829 0.859 -5.174 0.00 1.00 C -ATOM 8 C3 R1M A 1 0.062 2.004 -4.587 0.00 1.00 C -ATOM 9 C4 R1M A 1 -0.884 1.899 -3.638 0.00 1.00 C -ATOM 10 C2 R1M A 1 0.278 3.453 -5.010 0.00 1.00 C -ATOM 11 C5 R1M A 1 -1.478 3.226 -3.234 0.00 1.00 C -ATOM 12 N1 R1M A 1 -0.708 4.133 -4.124 0.00 1.00 N -ATOM 13 C9 R1M A 1 1.683 4.008 -4.719 0.00 1.00 C -ATOM 14 C8 R1M A 1 -0.105 3.711 -6.480 0.00 1.00 C -ATOM 15 C7 R1M A 1 -1.210 3.590 -1.762 0.00 1.00 C -ATOM 16 C6 R1M A 1 -2.981 3.340 -3.552 0.00 1.00 C -ATOM 17 O1 R1M A 1 -0.888 5.384 -4.141 0.00 1.00 O +ATOM 5 SG R1M A 1 1.146 -1.301 -2.287 0.00 1.00 S +ATOM 6 SD R1M A 1 1.767 -0.271 -3.990 0.00 1.00 S +ATOM 7 CE R1M A 1 3.500 -0.911 -4.259 0.00 1.00 C +ATOM 8 C3 R1M A 1 4.413 -0.317 -3.231 0.00 1.00 C +ATOM 9 C4 R1M A 1 4.526 0.993 -2.956 0.00 1.00 C +ATOM 10 C2 R1M A 1 5.338 -1.158 -2.356 0.00 1.00 C +ATOM 11 C5 R1M A 1 5.520 1.295 -1.863 0.00 1.00 C +ATOM 12 N1 R1M A 1 5.975 -0.084 -1.544 0.00 1.00 N +ATOM 13 C9 R1M A 1 4.619 -2.141 -1.414 0.00 1.00 C +ATOM 14 C8 R1M A 1 6.425 -1.890 -3.164 0.00 1.00 C +ATOM 15 C7 R1M A 1 4.880 1.932 -0.617 0.00 1.00 C +ATOM 16 C6 R1M A 1 6.716 2.137 -2.345 0.00 1.00 C +ATOM 17 O1 R1M A 1 6.851 -0.324 -0.665 0.00 1.00 O TER ENDMDL MODEL 191 @@ -4016,27 +4016,6 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 0.985 1.134 -2.444 0.00 1.00 S -ATOM 6 SD R1M A 1 1.475 2.994 -1.639 0.00 1.00 S -ATOM 7 CE R1M A 1 -0.193 3.793 -1.383 0.00 1.00 C -ATOM 8 C3 R1M A 1 -0.189 5.157 -2.002 0.00 1.00 C -ATOM 9 C4 R1M A 1 -0.263 5.414 -3.319 0.00 1.00 C -ATOM 10 C2 R1M A 1 -0.100 6.441 -1.183 0.00 1.00 C -ATOM 11 C5 R1M A 1 -0.247 6.886 -3.648 0.00 1.00 C -ATOM 12 N1 R1M A 1 -0.148 7.451 -2.277 0.00 1.00 N -ATOM 13 C9 R1M A 1 -1.282 6.679 -0.226 0.00 1.00 C -ATOM 14 C8 R1M A 1 1.235 6.580 -0.427 0.00 1.00 C -ATOM 15 C7 R1M A 1 -1.544 7.374 -4.318 0.00 1.00 C -ATOM 16 C6 R1M A 1 0.980 7.311 -4.474 0.00 1.00 C -ATOM 17 O1 R1M A 1 -0.087 8.694 -2.056 0.00 1.00 O -TER -ENDMDL -MODEL 192 -ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N -ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C -ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C -ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O -ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C ATOM 5 SG R1M A 1 0.906 0.982 -2.539 0.00 1.00 S ATOM 6 SD R1M A 1 1.360 2.925 -1.932 0.00 1.00 S ATOM 7 CE R1M A 1 -0.289 3.793 -2.039 0.00 1.00 C @@ -4052,25 +4031,46 @@ ATOM 16 C6 R1M A 1 -2.844 5.651 1.611 0.00 1.00 C ATOM 17 O1 R1M A 1 -0.219 7.070 1.669 0.00 1.00 O TER ENDMDL +MODEL 192 +ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N +ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C +ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C +ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O +ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C +ATOM 5 SG R1M A 1 0.985 1.134 -2.444 0.00 1.00 S +ATOM 6 SD R1M A 1 1.475 2.994 -1.639 0.00 1.00 S +ATOM 7 CE R1M A 1 -0.193 3.793 -1.383 0.00 1.00 C +ATOM 8 C3 R1M A 1 -0.189 5.157 -2.002 0.00 1.00 C +ATOM 9 C4 R1M A 1 -0.263 5.414 -3.319 0.00 1.00 C +ATOM 10 C2 R1M A 1 -0.100 6.441 -1.183 0.00 1.00 C +ATOM 11 C5 R1M A 1 -0.247 6.886 -3.648 0.00 1.00 C +ATOM 12 N1 R1M A 1 -0.148 7.451 -2.277 0.00 1.00 N +ATOM 13 C9 R1M A 1 -1.282 6.679 -0.226 0.00 1.00 C +ATOM 14 C8 R1M A 1 1.235 6.580 -0.427 0.00 1.00 C +ATOM 15 C7 R1M A 1 -1.544 7.374 -4.318 0.00 1.00 C +ATOM 16 C6 R1M A 1 0.980 7.311 -4.474 0.00 1.00 C +ATOM 17 O1 R1M A 1 -0.087 8.694 -2.056 0.00 1.00 O +TER +ENDMDL MODEL 193 ATOM 0 N R1M A 1 0.000 1.220 0.791 0.00 1.00 N ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.146 -1.301 -2.287 0.00 1.00 S -ATOM 6 SD R1M A 1 1.767 -0.271 -3.990 0.00 1.00 S -ATOM 7 CE R1M A 1 3.500 -0.911 -4.259 0.00 1.00 C -ATOM 8 C3 R1M A 1 4.413 -0.317 -3.231 0.00 1.00 C -ATOM 9 C4 R1M A 1 4.526 0.993 -2.956 0.00 1.00 C -ATOM 10 C2 R1M A 1 5.338 -1.158 -2.356 0.00 1.00 C -ATOM 11 C5 R1M A 1 5.520 1.295 -1.863 0.00 1.00 C -ATOM 12 N1 R1M A 1 5.975 -0.084 -1.544 0.00 1.00 N -ATOM 13 C9 R1M A 1 4.619 -2.141 -1.414 0.00 1.00 C -ATOM 14 C8 R1M A 1 6.425 -1.890 -3.164 0.00 1.00 C -ATOM 15 C7 R1M A 1 4.880 1.932 -0.617 0.00 1.00 C -ATOM 16 C6 R1M A 1 6.716 2.137 -2.345 0.00 1.00 C -ATOM 17 O1 R1M A 1 6.851 -0.324 -0.665 0.00 1.00 O +ATOM 5 SG R1M A 1 0.880 -0.852 -2.594 0.00 1.00 S +ATOM 6 SD R1M A 1 2.065 0.237 -3.920 0.00 1.00 S +ATOM 7 CE R1M A 1 0.829 0.859 -5.174 0.00 1.00 C +ATOM 8 C3 R1M A 1 0.062 2.004 -4.587 0.00 1.00 C +ATOM 9 C4 R1M A 1 -0.884 1.899 -3.638 0.00 1.00 C +ATOM 10 C2 R1M A 1 0.278 3.453 -5.010 0.00 1.00 C +ATOM 11 C5 R1M A 1 -1.478 3.226 -3.234 0.00 1.00 C +ATOM 12 N1 R1M A 1 -0.708 4.133 -4.124 0.00 1.00 N +ATOM 13 C9 R1M A 1 1.683 4.008 -4.719 0.00 1.00 C +ATOM 14 C8 R1M A 1 -0.105 3.711 -6.480 0.00 1.00 C +ATOM 15 C7 R1M A 1 -1.210 3.590 -1.762 0.00 1.00 C +ATOM 16 C6 R1M A 1 -2.981 3.340 -3.552 0.00 1.00 C +ATOM 17 O1 R1M A 1 -0.888 5.384 -4.141 0.00 1.00 O TER ENDMDL MODEL 194 @@ -4352,19 +4352,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.067 -1.200 -2.378 0.00 1.00 S -ATOM 6 SD R1M A 1 0.409 -0.016 -3.963 0.00 1.00 S -ATOM 7 CE R1M A 1 -1.113 -0.918 -4.557 0.00 1.00 C -ATOM 8 C3 R1M A 1 -2.282 0.019 -4.541 0.00 1.00 C -ATOM 9 C4 R1M A 1 -2.354 1.184 -5.203 0.00 1.00 C -ATOM 10 C2 R1M A 1 -3.556 -0.258 -3.749 0.00 1.00 C -ATOM 11 C5 R1M A 1 -3.660 1.911 -5.004 0.00 1.00 C -ATOM 12 N1 R1M A 1 -4.348 0.955 -4.097 0.00 1.00 N -ATOM 13 C9 R1M A 1 -4.333 -1.511 -4.192 0.00 1.00 C -ATOM 14 C8 R1M A 1 -3.323 -0.286 -2.227 0.00 1.00 C -ATOM 15 C7 R1M A 1 -4.472 2.070 -6.304 0.00 1.00 C -ATOM 16 C6 R1M A 1 -3.499 3.270 -4.300 0.00 1.00 C -ATOM 17 O1 R1M A 1 -5.507 1.165 -3.641 0.00 1.00 O +ATOM 5 SG R1M A 1 1.119 -1.268 -2.318 0.00 1.00 S +ATOM 6 SD R1M A 1 0.510 -0.169 -3.982 0.00 1.00 S +ATOM 7 CE R1M A 1 2.127 0.346 -4.760 0.00 1.00 C +ATOM 8 C3 R1M A 1 2.119 1.826 -4.985 0.00 1.00 C +ATOM 9 C4 R1M A 1 1.228 2.493 -5.739 0.00 1.00 C +ATOM 10 C2 R1M A 1 3.148 2.767 -4.367 0.00 1.00 C +ATOM 11 C5 R1M A 1 1.464 3.982 -5.774 0.00 1.00 C +ATOM 12 N1 R1M A 1 2.665 4.071 -4.900 0.00 1.00 N +ATOM 13 C9 R1M A 1 3.133 2.817 -2.828 0.00 1.00 C +ATOM 14 C8 R1M A 1 4.578 2.512 -4.878 0.00 1.00 C +ATOM 15 C7 R1M A 1 0.313 4.796 -5.156 0.00 1.00 C +ATOM 16 C6 R1M A 1 1.805 4.510 -7.180 0.00 1.00 C +ATOM 17 O1 R1M A 1 3.243 5.166 -4.649 0.00 1.00 O TER ENDMDL MODEL 208 @@ -4394,19 +4394,19 @@ ATOM 1 CA R1M A 1 0.000 0.000 0.000 0.00 1.00 C ATOM 2 C R1M A 1 0.000 -1.281 0.830 0.00 1.00 C ATOM 3 O R1M A 1 -0.023 -1.286 2.036 0.00 1.00 O ATOM 4 CB R1M A 1 1.177 0.013 -0.997 0.00 1.00 C -ATOM 5 SG R1M A 1 1.119 -1.268 -2.318 0.00 1.00 S -ATOM 6 SD R1M A 1 0.510 -0.169 -3.982 0.00 1.00 S -ATOM 7 CE R1M A 1 2.127 0.346 -4.760 0.00 1.00 C -ATOM 8 C3 R1M A 1 2.119 1.826 -4.985 0.00 1.00 C -ATOM 9 C4 R1M A 1 1.228 2.493 -5.739 0.00 1.00 C -ATOM 10 C2 R1M A 1 3.148 2.767 -4.367 0.00 1.00 C -ATOM 11 C5 R1M A 1 1.464 3.982 -5.774 0.00 1.00 C -ATOM 12 N1 R1M A 1 2.665 4.071 -4.900 0.00 1.00 N -ATOM 13 C9 R1M A 1 3.133 2.817 -2.828 0.00 1.00 C -ATOM 14 C8 R1M A 1 4.578 2.512 -4.878 0.00 1.00 C -ATOM 15 C7 R1M A 1 0.313 4.796 -5.156 0.00 1.00 C -ATOM 16 C6 R1M A 1 1.805 4.510 -7.180 0.00 1.00 C -ATOM 17 O1 R1M A 1 3.243 5.166 -4.649 0.00 1.00 O +ATOM 5 SG R1M A 1 1.067 -1.200 -2.378 0.00 1.00 S +ATOM 6 SD R1M A 1 0.409 -0.016 -3.963 0.00 1.00 S +ATOM 7 CE R1M A 1 -1.113 -0.918 -4.557 0.00 1.00 C +ATOM 8 C3 R1M A 1 -2.282 0.019 -4.541 0.00 1.00 C +ATOM 9 C4 R1M A 1 -2.354 1.184 -5.203 0.00 1.00 C +ATOM 10 C2 R1M A 1 -3.556 -0.258 -3.749 0.00 1.00 C +ATOM 11 C5 R1M A 1 -3.660 1.911 -5.004 0.00 1.00 C +ATOM 12 N1 R1M A 1 -4.348 0.955 -4.097 0.00 1.00 N +ATOM 13 C9 R1M A 1 -4.333 -1.511 -4.192 0.00 1.00 C +ATOM 14 C8 R1M A 1 -3.323 -0.286 -2.227 0.00 1.00 C +ATOM 15 C7 R1M A 1 -4.472 2.070 -6.304 0.00 1.00 C +ATOM 16 C6 R1M A 1 -3.499 3.270 -4.300 0.00 1.00 C +ATOM 17 O1 R1M A 1 -5.507 1.165 -3.641 0.00 1.00 O TER ENDMDL MODEL 210 diff --git a/tests/test_data/mutate_dSL.pdb b/tests/test_data/mutate_dSL.pdb index b274197..e3f8faa 100644 --- a/tests/test_data/mutate_dSL.pdb +++ b/tests/test_data/mutate_dSL.pdb @@ -456,10 +456,4 @@ ATOM 454 CG GLU A 56 14.232 -4.803 -3.291 1.00 1.00 C ATOM 455 CD GLU A 56 14.363 -3.443 -2.631 1.00 1.00 C ATOM 456 OE1 GLU A 56 15.479 -2.991 -2.314 1.00 1.00 O ATOM 457 OE2 GLU A 56 13.303 -2.811 -2.442 1.00 1.00 O -ATOM 458 H GLU A 56 16.960 -7.985 -5.406 1.00 1.00 H -ATOM 459 HA GLU A 56 14.709 -7.633 -3.576 1.00 1.00 H -ATOM 460 3HB GLU A 56 16.099 -5.720 -2.644 1.00 1.00 H -ATOM 461 2HB GLU A 56 16.193 -4.992 -4.232 1.00 1.00 H -ATOM 462 2HG GLU A 56 13.536 -5.385 -2.665 1.00 1.00 H -ATOM 463 3HG GLU A 56 13.679 -4.577 -4.218 1.00 1.00 H TER diff --git a/tests/test_io.py b/tests/test_io.py index ca053cd..ea86a53 100644 --- a/tests/test_io.py +++ b/tests/test_io.py @@ -132,11 +132,11 @@ def test_write_protein_with_bonds(): with open('1R1M.pdb', 'r') as f: - lines = "".join(f.readlines()) + lines = "".join([line for line in f if line.startswith("CONECT")]) thash = hashlib.md5(lines.encode("utf-8")).hexdigest() with open('test_data/cnct.pdb', 'r') as f: - lines = "".join(f.readlines()) + lines = "".join([line for line in f if line.startswith("CONECT")]) ahash = hashlib.md5(lines.encode("utf-8")).hexdigest() assert thash == ahash