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prelabm_getncsmap.py
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executable file
·229 lines (209 loc) · 8.05 KB
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#!/usr/bin/python
import os
import sys
import re
# Take in pdb chain
# Read pdb chain and make sure all the chains are kosher
# Calculate the symmetry matrices for A to B and C and D
# Do the tansform
# Recapitulate the built pdb
# Display the pdb in pymol
pdb = open(sys.argv[1] , "read")
pdb_pfx = os.path.splitext(pdb.name)[0]
pdb_sfx = os.path.splitext(pdb.name)[1]
max_atomnum = 0
fixedpdb = []
def cleanup_pdb(filename , chainid):
pdb_dirty = open(filename,"read")
file_root = os.path.splitext(pdb_dirty.name)[0]
new_file = file_root + "_mod.pdb"
pdbout = open(new_file , "write")
chain_id = chainid
global max_atomnum
# Atom counter
def change_segid_chaind(atom_array,new):
atom_array[7] = new
atom_array[-3] = new + (4-len(new))*' '
atom_array[1] = "%5d" % (max_atomnum)
return atom_array
for eachline in pdb_dirty:
pdbout.flush()
# If Line is not a ATOM line leave it alone and pass it on
atom = "^ATOM"
if (re.search(atom,eachline)):
max_atomnum = max_atomnum + 1 ;
myline = []
myline.extend([eachline[0:6],eachline[6:11]," ",eachline[12:16],eachline[16],eachline[17:20]," ",eachline[21],eachline[22:26],eachline[26],3*" ",eachline[30:38],eachline[38:46],eachline[46:54],eachline[54:60],eachline[60:66],6*" ",eachline[72:76],eachline[76:78],eachline[78:80]])
myline = change_segid_chaind(myline,chain_id)
s = ""
for j in range(len(myline)):
s = s + str(myline[j])
pdbout.write(s + "\n")
pdbout.flush()
else:
pdbout.write(eachline)
if(os.path.exists(pdbout.name)):
os.system("mv %s %s" % (pdbout.name,pdb_dirty.name))
print "Cleaned up file %s and wrote file %s with segid and chainid %s" % (pdb_dirty.name,pdbout.name, chainid)
pdbout.close()
def select_chain_writepdb(chainid):
outfile_name = pdb_pfx + "_%s" % chainid + pdb_sfx
logfile_name = pdb_pfx + "_%s" % chainid + "_chainextract.log"
# logfile = open(logfile_name , "write")
exec_str = '''pdbset XYZIN %s XYZOUT %s<<eof >%s\n
remark pdbset for extracting mol %s\n
select chain -
%s
end
eof''' % (pdb.name ,outfile_name,logfile_name,chainid,chainid)
os.system(exec_str)
if(os.path.exists(outfile_name)):
print "Done extracting chain %s" % chainid
file_array = [outfile_name , logfile_name]
return file_array
else:
print "Problem in command %s see log file %s " % (exec_str, logfile_name)
def run_lsqkab(moving , fixed, idA , idB ,start_similarity_residue_number , end_similarity_residue_number):
outfile_name = os.path.splitext(moving)[0] + "_%s_%s_lsq1" % (idA,idB) + os.path.splitext(moving)[1]
logfile_name = os.path.splitext(moving)[0] + "_%s_%s_lsqkab.log" % (idA,idB)
# logfile = open(logfile_name , "write")
exec_str='''lsqkab XYZIN2 %s XYZIN1 %s XYZOUT %s<<eof>%s\n
title test superpose for python script
fit res CA %d to %d -
chain %s
match %d to %d -
chain %s
output -
xyz
end
eof''' % ( moving,fixed,outfile_name, logfile_name,start_similarity_residue_number , end_similarity_residue_number,idA, start_similarity_residue_number , end_similarity_residue_number,idB)
os.system(exec_str)
if(os.path.exists(outfile_name)):
print "Lsqkab sucess transformed %s chain onto %s chain" % (moving , fixed)
file_array = [outfile_name , logfile_name]
return file_array
else:
print "Problem in command %s see log file %s " % (exec_str, logfile_name)
def analyse_ncs_log(logfile_name):
parse_result = []
#order for parse_result = cen_working , cen_reference , rot_mat 1 , rot_mat 2 , rot_mat 3 , trans vect
# lines to capture
# CENTROID OF "WORKING" MOLECULE :
# CENTROID OF "REFERENCE" MOLECULE :
# ROTATION MATRIX:
# TRANSLATION VECTOR IN AS 22.72297 44.87856 44.77779
file = open(logfile_name,"read")
for eachline in file:
centroid_working = re.search("CENTROID OF \"WORKING\" MOLECULE\s+:\s+(.*)",eachline)
centroid_fixed = re.search("CENTROID OF \"REFERENCE\" MOLECULE:\s+(.*)",eachline)
rotation_matrix = re.search("ROTATION MATRIX:",eachline)
if (rotation_matrix != None):
parse_result.append(file.next().strip())
parse_result.append(file.next().strip())
parse_result.append(file.next().strip())
tran = re.search("TRANSLATION VECTOR IN AS\s+(.*)",file.next())
if (tran != None):
parse_result.append(tran.group(1).strip())
else:
pass
elif(centroid_working != None):
parse_result.append( centroid_working.group(1).strip())
elif(centroid_fixed != None):
parse_result.append( centroid_fixed.group(1).strip())
else:
pass
return parse_result
def print_for_resolve(parse_result):
ncs = '''rota_matrix %s\nrota_matrix %s\nrota_matrix %s\ntran_orth %s\ncenter_orth %s\n''' % (parse_result[2],parse_result[3],parse_result[4],parse_result[5],parse_result[1])
print ncs
def make_ncs():
test_a = select_chain_writepdb("A")
test_b = select_chain_writepdb("B")
test_c = select_chain_writepdb("C")
test_d = select_chain_writepdb("D")
if (test_a != None) & (test_b != None) & ( test_c != None ) & (test_d != None):
print "Successfully extracted Chain %s and Chain %s and Chain %s and Chain %s " % (test_a[0] , test_b[0] , test_c[0],test_d[0])
lsq_run_ab = run_lsqkab(test_a[0],test_b[0],"A","B",45,415)
lsq_run_ac = run_lsqkab(test_a[0],test_c[0],"A","C",45,415)
lsq_run_ad = run_lsqkab(test_a[0],test_d[0],"A","D",45,415)
parse_tf_ab = analyse_ncs_log(lsq_run_ab[1])
parse_tf_ac = analyse_ncs_log(lsq_run_ac[1])
parse_tf_ad = analyse_ncs_log(lsq_run_ad[1])
print "rota_matrix 1 0 0 \nrota_matrix 0 1 0 \nrota_matrix 0 0 1 \ntran_orth 0 0 0 \ncenter_orth %s \n" % parse_tf_ab[0]
print_for_resolve(parse_tf_ab)
print_for_resolve(parse_tf_ac)
print_for_resolve(parse_tf_ad)
def make_babies():
#
test_a = select_chain_writepdb("A")
test_b = select_chain_writepdb("B")
test_c = select_chain_writepdb("C")
test_d = select_chain_writepdb("D")
parse_tf_ab , parse_tf_ac , parse_tf_ad = None , None , None
if (test_a != None) & (test_b != None) & ( test_c != None ) & (test_d != None):
print "Successfully extracted Chain %s and Chain %s and Chain %s and Chain %s " % (test_a[0] , test_b[0] , test_c[0],test_d[0])
lsq_run_ab = run_lsqkab(test_a[0],test_b[0],"A","B",45,415)
lsq_run_ac = run_lsqkab(test_a[0],test_c[0],"A","C",45,415)
lsq_run_ad = run_lsqkab(test_a[0],test_d[0],"A","D",45,415)
parse_tf_ab = analyse_ncs_log(lsq_run_ab[1])
parse_tf_ac = analyse_ncs_log(lsq_run_ac[1])
parse_tf_ad = analyse_ncs_log(lsq_run_ad[1])
print "rota_matrix 1 0 0 \nrota_matrix 0 1 0 \nrota_matrix 0 0 1 \ntran_orth 0 0 0 \ncenter_orth %s \n" % parse_tf_ab[0]
print_for_resolve(parse_tf_ab)
print_for_resolve(parse_tf_ac)
print_for_resolve(parse_tf_ad)
def make_child(apdb,bpdb,chainid,tfarray):
outfile_name = os.path.splitext(bpdb[0])[0] + "_tf.pdb"
logfile_name = os.path.splitext(bpdb[0])[0] + "_tf_logfile.log"
exec_str = '''pdbset XYZIN %s XYZOUT %s <<EOF>%s\n
remark [No title given]
rotate -
%s -
%s -
%s
shift -
%s
end
EOF''' %(apdb[0],outfile_name,logfile_name,tfarray[2],tfarray[3],tfarray[4],tfarray[5])
print exec_str
print outfile_name
print logfile_name
os.system(exec_str)
cleanup_pdb(outfile_name,chainid)
fixedpdb.append(outfile_name)
make_child(test_a,test_b,"B",parse_tf_ab)
make_child(test_a,test_c,"C",parse_tf_ac)
make_child(test_a,test_d,"D",parse_tf_ad)
make_ncs()
test_a = select_chain_writepdb("A")
cleanup_pdb(test_a[0],"A")
fixedpdb.append(test_a[0])
make_babies()
def make_final():
import re
file_out = pdb_pfx + "_reworked.pdb"
final = open(file_out , "write")
garbage = open(os.path.splitext(final.name)[0] + "garbage.txt" , "write")
header = None
for file in fixedpdb:
readfile = open(file,"read")
for line in readfile:
if(header == None):
final.write(line)
final.flush()
# when you find the file atom line
if (re.search("^ATOM",line)):
header = "got"
# final.write(line)
elif(re.search("^ATOM",line)):
final.write(line)
final.flush()
else:
garbage.write(line)
garbage.flush()
readfile.close()
print "Closed %s \n after appending to %s" %(readfile.name , final.name)
final.write("END\n")
garbage.close()
print "CLOSED final %s" % final.name
make_final()