How do articles represent profiles? Here we analyze the 6 Open papers in V1.0 to see some typical profiles:
PMC2900066
This is a simple table with only one profile.
Table 1
Chemical components of Lantana camara fresh leaves essential oil
| Components |
IR a sam. |
IR b lit. |
(%) |
| Sabinene |
971 |
971 |
4.78 |
| ß-pinene |
973 |
978 |
0.25 |
| ß-myrcene |
979 |
979 |
0.39 |
| ρ-cymene |
1020 |
1024 |
1.37 |
| Z- ß-ocimene |
1028 |
1026 |
0.94 |
| .. |
.. |
.. |
.. |
PMC4044670
Another single profile
Table 2
Components identified as constituents of essential oil of Oreganum vulgare (%) .
| Constituents |
RT (min.) |
[%] |
IR * |
IR ** |
| o-Cimene |
7.974 |
0.99 |
1013 |
1022 |
| p-Cimene |
8.194 |
1.08 |
1019 |
1026 |
| Limonene |
8.388 |
0.26 |
1025 |
1031 |
| γ-Terpinene |
9.421 |
5.02 |
1053 |
1062 |
| .. |
.. |
.. |
.. |
.. |
PMC3963878
This tables has 7 profiles which share common attributes (source, methods...) but are otherwise independent and could be given different Ids and denormalized.
Table 1
Chemical composition (in %) of essential oils of the seven aromatic plants tested.
| Compounds |
rt |
A. conyzoides |
E. camaldulensis |
L. multiflora |
H. spicigera |
O. americanum |
O. basilicum |
Z. officinale |
| α-thujene |
10.249 |
— |
— |
2.63 |
4.37 |
0.13 |
— |
— |
| α-pinene |
10.505 |
0.10 |
9.17 |
0.68 |
20.11 |
6.87 |
0.39 |
4.14 |
| Camphene |
11.106 |
0.80 |
0.19 |
0.23 |
0.09 |
2.77 |
— |
12.69 |
| Sabinene |
11.935 |
0.07 |
— |
0.86 |
10.26 |
0.65 |
2.58 |
— |
| .. |
.. |
.. |
.. |
.. |
.. |
.. |
.. |
.. |
PMC6253779
4 lightly coupled profiles
Table 1
Phytochemical composition (%) of essential oils of Satureja montana, S. cuneifolia, S. subspicata and S. visianii.
| No. |
Component |
RI |
S. montana year 2007 |
S. cuneifolia year 2007 |
S. subspicata year 2007 |
S. visianii year 2007 |
| 1 |
α-Thujene |
924 |
- |
- |
- |
10.9 |
| 2 |
α-Pinene |
935 |
0.9 |
- |
24.2 |
5.8 |
| 3 |
Camphene |
947 |
- |
- |
- |
1.7 |
| 4 |
Verbenene |
961 |
- |
- |
|
0.4 |
| 5 |
Sabinene |
971 |
- |
- |
1.7 |
1.4 |
| 6 |
1-Octene-3-ol |
974 |
1.1 |
1.4 |
1.8 |
1.3 |
| .. |
.. |
.. |
.. |
.. |
.. |
.. |
PMC6259589
Another single profile
Table 2
Chemical constituents of the essential oil of A. conyzoides identified by GC-MS.
| Compound |
Retention time (min) |
Retention index |
Peak area (%) |
| α-Thujene |
4.909 |
924 |
0.16 |
| α-Pinene |
5.100 |
931 |
0.30 |
| β-Cubebene |
22.312 |
1384 |
0.62 |
| β-Elemene |
22.396 |
1386 |
0.42 |
| ( E)-Caryophyllene |
23.594 |
1414 |
14.23 |
| α-Humulene |
25.059 |
1450 |
2.80 |
| Precocene I |
25.517 |
1461 |
74.30 |
| .. |
.. |
.. |
.. |
PMC6268859
Two independent profiles
Table 1
Major components identified in the volatile oils of L. camara and L. radula.
| Peak no. |
Constituent a |
RI |
L. camara (%) |
L. radula (%) |
| 1 |
α-Copaene |
1374 |
1.1 ± 0.12 |
- |
| 2 |
β-Elemene |
1390 |
3.2 ± 0.51 |
- |
| 3 |
Tetradecane |
1399 |
1.0 ± 0.55 |
1.8 ± 0.26 |
| 4 |
E-Caryophyllene |
1418 |
19.7 ± 3.32 |
25.3 ± 5.47 |
| 5 |
β-Gurjunene |
1427 |
1.2 ± 0.15 |
- |
| 6 |
α-Humulene |
1451 |
9.3 ± 0.30 |
1.2 ± 0.06 |
| 7 |
β- E-Farnesene |
1458 |
1.3 ± 0.20 |
Tr |
| .. |
.. |
.. |
.. |
.. |
How do articles represent profiles? Here we analyze the 6 Open papers in V1.0 to see some typical profiles:
PMC2900066
This is a simple table with only one profile.
PMC4044670
Another single profile
PMC3963878
This tables has 7 profiles which share common attributes (source, methods...) but are otherwise independent and could be given different Ids and denormalized.
PMC6253779
4 lightly coupled profiles
PMC6259589
Another single profile
PMC6268859
Two independent profiles