Wrapping GROMACS by Python for me
Project description
gmxpy
Author: Goosang Yu
Contact: gsyu93@gmali.com
Wrapping GROMACS by python script for me
Since 2023. 07. 12.
Tested GROMCAS ver. 2023.1
Installation
pip install gmxpy
This package does not include GROMACS. You need to install GROMCAS separately. Also, gmxpy is currently being developed based on GROMACS version 2023.1. If you use a version that is too old, it may not be compatible.
You don need to use XMGRACE anymore!
GROMACS by default generates graphs of data in the form of xmgrace files (.xvg). Xmgrace produces visually appealing plots, but it can be cumbersome to handle in different languages or operating systems. The most important thing is that I am not familiar with it.
One of the functions included in gmxpy, called 'xvg2df', converts it into a much simpler DataFrame format.
import gmxpy as gmx
df_xvg = gmx.xvg2df('interaction_energy.xvg')
df_xvg()
| Coul-SR:Protein-JZ4 | LJ-SR:Protein-JZ4 | |
|---|---|---|
| Time (ps) | ||
| 0 | -15.2106 | -98.9382 |
| 10 | -15.5369 | -108.834 |
| 20 | -26.0345 | -105.193 |
| 30 | -13.2364 | -108.948 |
| 40 | -13.0772 | -109.427 |
With just a little additional effort, it can be conveniently plotted and visualized as a graph. I have freely chosen the colors that I personally like.
df_xvg().plot()
Make dataframe from gmx_MMPBSA results file
When you done your MMPB(GB)SA by gmx_MMPBSA, you will get data file containing decomposition results (DECOMP_MMPBSA_YOURSAMPLE.dat)
| Run on Fri Oct 27 19:17:14 2023\n
| GB non-polar solvation energies calculated with gbsa=2
idecomp = 3: Pairwise decomp adding 1-4 interactions to Internal.
Energy Decomposition Analysis (All units kcal/mol): Generalized Born model
DELTAS:
Total Energy Decomposition:
Resid 1,Resid 2,Internal,,,van der Waals,,,Electrostatic,,,Polar Solvation,,,Non-Polar Solv.,,,TOTAL,,
,,Avg.,Std. Dev.,Std. Err. of Mean,Avg.,Std. Dev.,Std. Err. of Mean,Avg.,Std. Dev.,Std. Err. of Mean,Avg.,Std. Dev.,Std. Err. of Mean,Avg.,Std. Dev.,Std. Err. of Mean,Avg.,Std. Dev.,Std. Err. of Mean
R:A:ARG:351,R:A:ARG:351,0.0,0.0,0.0,0.0,0.5897586551665688,0.015222429700453965,0.0,6.785105251173467,0.1751322965612053,2.9772637441705534,3.1993571192946018,0.08257952368898057,1.0425542756210526,0.6088115226883254,0.01571420872548597,4.019818019791606,7.549305000315245,0.19485727534109232
R:A:ARG:351,R:A:ASN:355,0.0,0.0,0.0,0.0,0.1863456749011414,0.0048098216301125886,0.0,0.6239917901458101,0.016106030960193803,0.01945755229846769,0.6328086828777381,0.016333606305824484,0.0033432117553630915,0.135970829538314,0.0035095820567055645,0.022800764053830778,0.9181641249441898,0.023698997416992967
...
This file need somethigng arrange for analysis... so I make function make_decomp_df for this.
from gmxpy.analysis import make_decomp_df
df_decomp = make_decomp_df('DECOMP_MMPBSA_8SSN_K294E')
df_decomp
| Resid 1 | Resid 2 | Internal_Avg. | Internal_Std. Dev. | Internal_Std. Err. of Mean | van der Waals_Avg. | van der Waals_Std. Dev. | van der Waals_Std. Err. of Mean | Electrostatic_Avg. | Electrostatic_Std. Dev. | Electrostatic_Std. Err. of Mean | Polar Solvation_Avg. | Polar Solvation_Std. Dev. | Polar Solvation_Std. Err. of Mean | Non-Polar Solv._Avg. | Non-Polar Solv._Std. Dev. | Non-Polar Solv._Std. Err. of Mean | TOTAL_Avg. | TOTAL_Std. Dev. | TOTAL_Std. Err. of Mean |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| R:A:ARG:351 | R:A:ARG:351 | 0 | 0 | 0 | 0 | 0.589759 | 0.015222 | 0 | 6.785105 | 0.175132 | 2.977264 | 3.199357 | 0.08258 | 1.042554 | 0.608812 | 0.015714 | 4.019818 | 7.549305 | 0.194857 |
| R:A:ARG:351 | R:A:ASN:355 | 0 | 0 | 0 | 0 | 0.186346 | 0.00481 | 0 | 0.623992 | 0.016106 | 0.019458 | 0.632809 | 0.016334 | 0.003343 | 0.135971 | 0.00351 | 0.022801 | 0.918164 | 0.023699 |
| R:A:ARG:351 | R:A:ALA:356 | 0 | 0 | 0 | 0 | 0.016111 | 0.000416 | 0 | 0.220186 | 0.005683 | -0.00927 | 0.230623 | 0.005953 | 0.000006 | 0.001666 | 0.000043 | -0.00926 | 0.319267 | 0.008241 |
| R:A:ARG:351 | R:A:VAL:357 | 0 | 0 | 0 | 0 | 0.003677 | 0.000095 | 0 | 0.114568 | 0.002957 | -0.00283 | 0.11502 | 0.002969 | 0 | 0 | 0 | -0.00283 | 0.162385 | 0.004191 |
| R:A:ARG:351 | R:A:LEU:359 | 0 | 0 | 0 | 0 | 0.022395 | 0.000578 | 0 | 0.277392 | 0.00716 | -0.02104 | 0.290559 | 0.0075 | 0.000031 | 0.003792 | 0.000098 | -0.02101 | 0.402351 | 0.010385 |
| ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... |
| L:B:AY7:527 | R:A:PHE:516 | 0 | 0 | 0 | -0.20527 | 0.107602 | 0.002777 | -0.03828 | 0.02827 | 0.00073 | 0.077929 | 0.030734 | 0.000793 | -0.05729 | 0.05616 | 0.00145 | -0.22291 | 0.128359 | 0.003313 |
| L:B:AY7:527 | R:A:ILE:521 | 0 | 0 | 0 | -0.68336 | 0.218584 | 0.005642 | -0.17155 | 0.131663 | 0.003398 | 0.199371 | 0.118569 | 0.00306 | -0.51561 | 0.13099 | 0.003381 | -1.17114 | 0.310372 | 0.008011 |
| L:B:AY7:527 | R:A:SER:522 | 0 | 0 | 0 | -0.09544 | 0.055133 | 0.001423 | -0.08589 | 0.123155 | 0.003179 | 0.102106 | 0.116548 | 0.003008 | -0.00409 | 0.02269 | 0.000586 | -0.08332 | 0.179736 | 0.004639 |
| L:B:AY7:527 | R:A:VAL:525 | 0 | 0 | 0 | -1.6084 | 0.812559 | 0.020973 | -0.48198 | 0.961192 | 0.02481 | 0.332301 | 0.442281 | 0.011416 | -1.14992 | 0.584504 | 0.015087 | -2.90801 | 1.456502 | 0.037594 |
| L:B:AY7:527 | L:B:AY7:527 | 0 | 0 | 0 | 0 | 2.464959 | 0.063624 | 0 | 2.834387 | 0.073159 | 14.78321 | 1.878281 | 0.048481 | 9.8872 | 0.649812 | 0.016772 | 24.67041 | 4.249702 | 0.10969 |
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