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我的情况有点不寻常。根据残基名称,有七种不同的蛋白质存储在一个文件中。每种蛋白质具有不同的序列长度。现在我需要计算每个蛋白质的质心并生成时间序列数据。我知道如何处理单个蛋白质,但不知道如何处理多个蛋白质系统。对于单一蛋白质,我可以这样做:

import MDAnalysis as mda
import numpy as np

u = mda.Universe('lp400start.gro')
u1 = mda.Merge(u.select_atoms("not resname W and not resname WF and not resname ION"))
u1.load_new('lp400.xtc')
protein = u1.select_atoms("protein")
arr = np.empty((protein.n_residues, u1.trajectory.n_frames, 3))

for ts in u.trajectory:
    arr[:, ts.frame] = protein.center_of_mass(compound='residues')

数据文件可在此处公开获得。可以使用 来检查拓扑文件中的残基序列grep "^ *1[A-Z]" -B1 lp400final.gro | grep -v "^ *1[A-Z]",输出:

 38ALA     BB   74  52.901  33.911   6.318
--
   38ALA     BB  148  41.842  29.381   7.211
--
  137GLY     BB  455  36.756   4.287   3.284
--
  137GLY     BB  762  44.721  60.377   3.112
--
  252HIS    SC3 1368  28.682  37.936   6.727
--
  252HIS    SC3 1974  18.533  46.506   6.314
--
  576PHE    SC3 3263  48.937  38.538   4.013
--
  576PHE    SC3 4552  18.513  25.948   3.800
--
 1092PRO    SC1 6470  42.510  40.992   6.775
--
 1092PRO    SC1 8388  14.709   4.759   6.370
--
 1016LEU    SC110524  57.264  56.308   2.632
--
 1016LEU    SC112660  50.716  14.698   2.728
--
 1285LYS    SC215345   0.793  33.529   1.509

第一个蛋白质的序列长度为 38 个残基,它有自己的副本,然后是第二个蛋白质,依此类推。现在我想在每个时间范围内获得每种蛋白质的 COM 并将其构建成一个时间序列。除了蛋白质拓扑文件还包含 DPPC 粒子。Could someone help me how to do this?谢谢!

为了确保输出轨迹正确,它看起来像这样在此处输入链接描述

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1 回答 1

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我会从 TPR 文件加载系统以维护债券信息。然后 MDAnalysis 可以确定片段(即您的蛋白质)。然后遍历片段以确定 COM 时间序列:

import MDAnalysis as mda
import numpy as np

# files from https://doi.org/10.5281/zenodo.846428
TPR = "lp400.tpr"
XTC = "lp400.xtc"

# build reduced universe to match XTC
# (ignore warnings that no coordinates are found for the TPR)
u0 = mda.Universe(TPR)
u = mda.Merge(u0.select_atoms("not resname W and not resname WF and not resname ION"))
u.load_new(XTC)

# segments (exclude the last one, which is DPPC and not protein)
protein_segments = u.segments[:-1]

# build the fragments
# (a dictionary with the key as the protein name -- I am using an
# OrderedDict so that the order is the same as in the TPR)
from collections import OrderedDict
protein_fragments = OrderedDict((seg.segid[6:], seg.atoms.fragments) for seg in protein_segments)

# analyze trajectory (with a nice progress bar)
timeseries = []
for ts in mda.log.ProgressBar(u.trajectory):
    coms = []
    for name, proteins in protein_fragments.items():
        # loop over all the different proteins;
        # unwrap to get the true COM under PBC (double check!!)
        coms.extend([p.center_of_mass(unwrap=True) for p in proteins]) 
    timeseries.append(coms)
timeseries = np.array(timeseries)

笔记

  • 仔细检查unwrap=True是否在做正确的事情(这是必要的——我没有检查是否有任何蛋白质跨越周期性边界分裂)。
  • 展开很慢;如果你不需要它,它会运行得更快。
  • 结果数组是一个形状为 的 3d 数组(N_timesteps, M_proteins, 3),即(10001, 14, 3)
  • 的内容protein_fragments
    OrderedDict([('EPHA', (<AtomGroup with 74 atoms>, <AtomGroup with 74 atoms>)),
           ('OMPA', (<AtomGroup with 307 atoms>, <AtomGroup with 307 atoms>)),
           ('OMPG', (<AtomGroup with 606 atoms>, <AtomGroup with 606 atoms>)),
           ('BTUB', (<AtomGroup with 1289 atoms>, <AtomGroup with 1289 atoms>)),
           ('ATPS', (<AtomGroup with 1918 atoms>, <AtomGroup with 1918 atoms>)),
           ('GLPF', (<AtomGroup with 2136 atoms>, <AtomGroup with 2136 atoms>)),
           ('FOCA', (<AtomGroup with 2685 atoms>, <AtomGroup with 2685 atoms>))])
于 2022-03-01T01:27:42.000 回答