Difference between revisions of "Homology Modeling of ARS A"

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(Proteins used as templates)
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Our potential tmeplates, identified by the database searches contain all homologs with known structure, regarding to HSSP.
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Our potential templates, identified by the database searches contain all homologs with known structure, regarding to HSSP.
   
 
In order to predict the structure, modeller needs pairwise sequence alignments in PIR format. We wrote a python script (''align_all.py'') - using the example python script ''aln_append_model.py'' - to achieve this. Then we wrote one Python script (using the example script ''model-default.py'') per protein to build the model, using the alignments and the pdb structures.
 
In order to predict the structure, modeller needs pairwise sequence alignments in PIR format. We wrote a python script (''align_all.py'') - using the example python script ''aln_append_model.py'' - to achieve this. Then we wrote one Python script (using the example script ''model-default.py'') per protein to build the model, using the alignments and the pdb structures.

Revision as of 15:53, 8 June 2011

HHpred

We used the webserver and

Modeller

Proteins used as templates

We identified the following proteins (see Alignment TASK) as potential targets for homology modeling:used the following

SeqIdentifier Seq Identity (from TASK 2) source Protein function True homolog (HSSP) Seq Identity (pairw. ali.)
1P49 39.0% Homo Sapiens Steryl-Sulfatase yes 31.9%
1FSU 28.0% Homo Sapiens Arylsulfatase B yes 26.5%
2VQR 20.0% Rhizobium leguminosarum Sulfatase no 20.3%
3ED4 32.0% Escherichia coli Arylsulfatase yes 27.7%

Our potential templates, identified by the database searches contain all homologs with known structure, regarding to HSSP.

In order to predict the structure, modeller needs pairwise sequence alignments in PIR format. We wrote a python script (align_all.py) - using the example python script aln_append_model.py - to achieve this. Then we wrote one Python script (using the example script model-default.py) per protein to build the model, using the alignments and the pdb structures. We executed the following commands:

/apps/modeller9.9/bin/mod9.9 align_all.py /apps/modeller9.9/bin/mod9.9 predict1p49.py /apps/modeller9.9/bin/mod9.9 predict2vqr.py /apps/modeller9.9/bin/mod9.9 predict1fsu.py /apps/modeller9.9/bin/mod9.9 predict3ed4.py


We modified the paths and filenames in the scripts such that it matched our proteins of interest.

1P49 2VQR 1FSU 3ED4
plot of POODLE-output showing the probability of being disordered along the sequence
plot of POODLE-output showing the probability of being disordered along the sequence
plot of POODLE-output showing the probability of being disordered along the sequence
plot of POODLE-output showing the probability of being disordered along the sequence