Difference between revisions of "Workflow homology modelling glucocerebrosidase"

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Detailed workflow of the different homology modelling approaches for glucocerebrosidase. Return to [[Glucocerebrosidase_homology_modelling | overview]].
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== MODELLER ==
 
== MODELLER ==
   

Revision as of 09:08, 10 June 2011

Detailed workflow of the different homology modelling approaches for glucocerebrosidase. Return to overview.

MODELLER

Preparation of the Alignment File

  1. Save target protein sequence in PIR-format: target.pir
  2. Save PDB-file of template sequence: template:pdb
    If PDB-file consists of several chains: split pdb file with the help of splitpdb (note that minor changes are needed, so that ATOM coordinates get listed in the resulting PDB-file instead of HETATOMS).
  3. Run the following Python script with command 'mod9.9 align.py' to create a target-template alignment in PIR-format:

log.verbose()
env = environ()
aln = alignment(env)
mdl= model(env, file='template')
aln.append_model(mdl, align_codes='template')
aln.append(file='target.pir', align_codes=('target'))
aln.align(gap_penalties_1d=(-600,-400))
aln.write(file='target_template.ali', alignment_format='PIR')
aln.write(file='target_template.pap', alignment_format='PAP')

Modelling of the Target Structure

  1. Run the following Python script with command 'mod9.9 model.py' to model the structure of the target sequence:
    Note that all files (alignment- and structure file) must be in the same folder

from modeller.automodel import * 
log.verbose()
env = environ()
env.io.atom_files_directory =
a = automodel (env, alnfile = 'target_template.ali', knowns = 'template', sequence = 'target')
a.starting_model = 1
a.ending_model = 1
a.make()

iTASSER

coming soon

SWISS-MODELLER

coming soon