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===DESCRIPTION=== | ===DESCRIPTION=== | ||
− | To | + | To build a peptide sequence. |
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===SETUP=== | ===SETUP=== | ||
Line 13: | Line 6: | ||
===NOTES / STATUS=== | ===NOTES / STATUS=== | ||
− | *Tested on | + | *Tested on Pymolv1.0, Windows platform |
− | * | + | *Many bugs to be found |
===USAGE=== | ===USAGE=== | ||
− | + | *seqInfo = getTableFromCsvFile("seqInfo.csv") | |
− | + | with in the file something like: | |
+ | MET,-54,-47 | ||
+ | PRO,-54,-47 | ||
+ | |||
+ | *seqInfo = [['MET',-57,-47],['PRO',-57,-47]] | ||
+ | *createPeptide(seqInfo) | ||
===EXAMPLES=== | ===EXAMPLES=== | ||
− | + | seqInfo = [['MET',-57,-47],['PRO',-57,-47]] | |
− | + | createPeptide(seqInfo) | |
===SCRIPTS (CreateSecondaryStructures.py)=== | ===SCRIPTS (CreateSecondaryStructures.py)=== | ||
CreateSecondaryStructures.py | CreateSecondaryStructures.py | ||
<source lang="python"> | <source lang="python"> | ||
− | |||
############################################## | ############################################## | ||
− | # Author: Dan Kulp | + | # Original Author: Dan Kulp |
# Date : 9/8/2005 | # Date : 9/8/2005 | ||
+ | # MOdified by Jurgen F. Doreleijers | ||
+ | # For Hamid Eghbalnia | ||
# | # | ||
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############################################# | ############################################# | ||
− | + | # Call in window like : | |
− | + | # @C:\Documents and Settings\jurgen.WHELK.000\workspace\Wattos\python\Wattos\Utils\CreateSecondaryStructures.py | |
− | + | # Next line is a pymol directive | |
− | # | + | python |
− | + | import urllib | |
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+ | # Well I guess one can build a protein with it but the vdw contacts would be horrible. | ||
+ | # Peptide needs to be at least 2 residues. | ||
+ | def createPeptide(seqInfo): | ||
+ | cmd.delete("all") | ||
+ | # Creates residue TWO | ||
+ | editor.attach_amino_acid('pk1',seqInfo[1][0]) | ||
+ | # Creates residue ONE | ||
+ | createSS('resi 2', sequence=seqInfo[0][0],terminal='N') | ||
+ | print "found sequence info for number of residues: ", len(seqInfo) | ||
+ | for i in range(2,len(seqInfo) ): | ||
+ | # resn is the residue number of the new residue | ||
+ | resn = i + 1 | ||
+ | print "Adding residue: ", resn, seqInfo[i][0] | ||
+ | # Note that the previous residue is numbered i. | ||
+ | resi = 'resi '+`i` | ||
+ | createSS(resi, sequence=seqInfo[i][0]) | ||
+ | for i in range( len(seqInfo) ): | ||
+ | resi = 'resi '+`i+1` | ||
+ | # print "Setting backbone angles for residue: ", (i+1), seqInfo[i][0],seqInfo[i][1],seqInfo[i][2] | ||
+ | set_phipsi(resi,seqInfo[i][1],seqInfo[i][2]) | ||
+ | |||
# Create generic secondary structure, based off a selection | # Create generic secondary structure, based off a selection | ||
− | def createSS(sel, sequence='ALA',repeat= | + | def createSS(sel, sequence='ALA',repeat=1,terminal='C'): |
− | + | # Set selection | |
− | + | selection = "%s and name %s" % (sel,terminal) | |
− | + | # Pick atom for editing - interestingly only need to do this for the first addition | |
− | + | cmd.edit(selection,None,None,None,pkresi=0,pkbond=0) | |
− | + | # Array of residues | |
− | + | seq = sequence.split(",") | |
− | + | # Get residue numbering .. potential bug here if number is inconsistent.. (Only works at c-terminal) | |
− | + | resi = int(cmd.get_model(sel).atom[0].resi) + 1 | |
− | + | # Loop and build new residues | |
− | + | for i in range(1,repeat+1): | |
− | + | for s in seq: | |
− | + | # print "residue[%i]: %s %s" % (i,s,terminal) | |
− | + | editor.attach_amino_acid('pk1',s) | |
− | |||
− | + | # Remove extra OXT carboxylate atom (OXT1, OXT2 ?) .. fix as needed | |
− | + | if terminal == 'C': | |
− | + | cmd.remove("%s and name OXT" % sel) | |
− | + | ||
− | + | ||
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− | |||
def set_phipsi(sel,phi,psi): | def set_phipsi(sel,phi,psi): | ||
+ | # Get atoms from selection | ||
+ | atoms = cmd.get_model("byres ("+sel+")") | ||
− | + | # Loop through atoms in selection | |
− | + | for at in atoms.atom: | |
− | + | if at.name == "N": | |
− | + | # Check for a null chain id (some PDBs contain this) | |
− | + | unit_select = "" | |
− | + | if not at.chain == "": | |
− | + | unit_select = "chain "+str(at.chain)+" and " | |
− | + | ||
− | + | try: | |
− | + | # Define residue selections | |
− | + | residue_def_prev = unit_select+'resi '+str(int(at.resi)-1) | |
− | + | residue_def = unit_select+'resi '+str(at.resi) | |
− | + | # print "residue_def_prev: [%s]" % residue_def_prev | |
− | + | # print "residue_def : [%s]" % residue_def | |
− | + | if at.resn == "PRO": | |
− | + | print "Skipping setting phi for PRO" | |
− | + | else: | |
− | + | old_phi = cmd.get_dihedral(residue_def_prev+' and name C',residue_def+' and name N', residue_def+' and name CA',residue_def+' and name C') | |
− | + | cmd.set_dihedral( residue_def_prev+' and name C',residue_def+' and name N', residue_def+' and name CA',residue_def+' and name C' ,phi) | |
− | + | print "Changed residue %4s %4s phi: from %6.1f to %6.1f" % (at.resn, at.resi, old_phi, float(phi)) | |
− | + | except: | |
− | + | ||
− | + | print "Note skipping set of phi because of error; this is normal for a N-terminal residue" | |
− | + | try: | |
− | + | residue_def = unit_select+'resi '+str(at.resi) | |
− | + | residue_def_next = unit_select+'resi '+str(int(at.resi)+1) | |
− | + | # print "residue_def : [%s]" % residue_def | |
− | + | # print "residue_def_next: [%s]" % residue_def_next | |
− | + | old_psi = cmd.get_dihedral(residue_def +' and name N',residue_def+' and name CA',residue_def+' and name C', residue_def_next+' and name N') | |
− | + | cmd.set_dihedral( residue_def +' and name N',residue_def+' and name CA',residue_def+' and name C', residue_def_next+' and name N',psi) | |
− | + | print "Changed residue %4s %4s psi: from %6.1f to %6.1f" % (at.resn, at.resi, old_psi, float(psi)) | |
− | + | except: | |
− | + | print "Note skipping set of psi; this is normal for a C terminal residue" | |
− | |||
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+ | def getTableFromCsvFile(urlLocation): | ||
+ | result = [] | ||
+ | r1 = urllib.urlopen(urlLocation) | ||
+ | data = r1.read() | ||
+ | r1.close() | ||
+ | dataLines = data.split("\n") | ||
+ | for dataLine in dataLines: | ||
+ | if dataLine: | ||
+ | result.append( dataLine.split(',') ) | ||
+ | return result | ||
+ | # next line is a pymol directive. | ||
+ | python end | ||
+ | os.chdir("C:\Documents and Settings\jurgen.WHELK.000\workspace\Wattos\python\Wattos\Utils") | ||
+ | seqInfo = getTableFromCsvFile("seqInfo.csv") | ||
+ | createPeptide(seqInfo) | ||
</source> | </source> | ||
Line 139: | Line 145: | ||
[[Category:Script_Library|CreateSecondaryStructure]] | [[Category:Script_Library|CreateSecondaryStructure]] | ||
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[[Category:Structural_Biology_Scripts|CreateSecondaryStructure]] | [[Category:Structural_Biology_Scripts|CreateSecondaryStructure]] |
Latest revision as of 01:43, 28 March 2014
DESCRIPTION
To build a peptide sequence.
SETUP
run CreateSecondaryStructure.py
NOTES / STATUS
- Tested on Pymolv1.0, Windows platform
- Many bugs to be found
USAGE
- seqInfo = getTableFromCsvFile("seqInfo.csv")
with in the file something like: MET,-54,-47 PRO,-54,-47
- seqInfo = [['MET',-57,-47],['PRO',-57,-47]]
- createPeptide(seqInfo)
EXAMPLES
seqInfo = [['MET',-57,-47],['PRO',-57,-47]] createPeptide(seqInfo)
SCRIPTS (CreateSecondaryStructures.py)
CreateSecondaryStructures.py
##############################################
# Original Author: Dan Kulp
# Date : 9/8/2005
# MOdified by Jurgen F. Doreleijers
# For Hamid Eghbalnia
#
#############################################
# Call in window like :
# @C:\Documents and Settings\jurgen.WHELK.000\workspace\Wattos\python\Wattos\Utils\CreateSecondaryStructures.py
# Next line is a pymol directive
python
import urllib
# Well I guess one can build a protein with it but the vdw contacts would be horrible.
# Peptide needs to be at least 2 residues.
def createPeptide(seqInfo):
cmd.delete("all")
# Creates residue TWO
editor.attach_amino_acid('pk1',seqInfo[1][0])
# Creates residue ONE
createSS('resi 2', sequence=seqInfo[0][0],terminal='N')
print "found sequence info for number of residues: ", len(seqInfo)
for i in range(2,len(seqInfo) ):
# resn is the residue number of the new residue
resn = i + 1
print "Adding residue: ", resn, seqInfo[i][0]
# Note that the previous residue is numbered i.
resi = 'resi '+`i`
createSS(resi, sequence=seqInfo[i][0])
for i in range( len(seqInfo) ):
resi = 'resi '+`i+1`
# print "Setting backbone angles for residue: ", (i+1), seqInfo[i][0],seqInfo[i][1],seqInfo[i][2]
set_phipsi(resi,seqInfo[i][1],seqInfo[i][2])
# Create generic secondary structure, based off a selection
def createSS(sel, sequence='ALA',repeat=1,terminal='C'):
# Set selection
selection = "%s and name %s" % (sel,terminal)
# Pick atom for editing - interestingly only need to do this for the first addition
cmd.edit(selection,None,None,None,pkresi=0,pkbond=0)
# Array of residues
seq = sequence.split(",")
# Get residue numbering .. potential bug here if number is inconsistent.. (Only works at c-terminal)
resi = int(cmd.get_model(sel).atom[0].resi) + 1
# Loop and build new residues
for i in range(1,repeat+1):
for s in seq:
# print "residue[%i]: %s %s" % (i,s,terminal)
editor.attach_amino_acid('pk1',s)
# Remove extra OXT carboxylate atom (OXT1, OXT2 ?) .. fix as needed
if terminal == 'C':
cmd.remove("%s and name OXT" % sel)
def set_phipsi(sel,phi,psi):
# Get atoms from selection
atoms = cmd.get_model("byres ("+sel+")")
# Loop through atoms in selection
for at in atoms.atom:
if at.name == "N":
# Check for a null chain id (some PDBs contain this)
unit_select = ""
if not at.chain == "":
unit_select = "chain "+str(at.chain)+" and "
try:
# Define residue selections
residue_def_prev = unit_select+'resi '+str(int(at.resi)-1)
residue_def = unit_select+'resi '+str(at.resi)
# print "residue_def_prev: [%s]" % residue_def_prev
# print "residue_def : [%s]" % residue_def
if at.resn == "PRO":
print "Skipping setting phi for PRO"
else:
old_phi = cmd.get_dihedral(residue_def_prev+' and name C',residue_def+' and name N', residue_def+' and name CA',residue_def+' and name C')
cmd.set_dihedral( residue_def_prev+' and name C',residue_def+' and name N', residue_def+' and name CA',residue_def+' and name C' ,phi)
print "Changed residue %4s %4s phi: from %6.1f to %6.1f" % (at.resn, at.resi, old_phi, float(phi))
except:
print "Note skipping set of phi because of error; this is normal for a N-terminal residue"
try:
residue_def = unit_select+'resi '+str(at.resi)
residue_def_next = unit_select+'resi '+str(int(at.resi)+1)
# print "residue_def : [%s]" % residue_def
# print "residue_def_next: [%s]" % residue_def_next
old_psi = cmd.get_dihedral(residue_def +' and name N',residue_def+' and name CA',residue_def+' and name C', residue_def_next+' and name N')
cmd.set_dihedral( residue_def +' and name N',residue_def+' and name CA',residue_def+' and name C', residue_def_next+' and name N',psi)
print "Changed residue %4s %4s psi: from %6.1f to %6.1f" % (at.resn, at.resi, old_psi, float(psi))
except:
print "Note skipping set of psi; this is normal for a C terminal residue"
def getTableFromCsvFile(urlLocation):
result = []
r1 = urllib.urlopen(urlLocation)
data = r1.read()
r1.close()
dataLines = data.split("\n")
for dataLine in dataLines:
if dataLine:
result.append( dataLine.split(',') )
return result
# next line is a pymol directive.
python end
os.chdir("C:\Documents and Settings\jurgen.WHELK.000\workspace\Wattos\python\Wattos\Utils")
seqInfo = getTableFromCsvFile("seqInfo.csv")
createPeptide(seqInfo)