FlexPepDock: Difference between revisions

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In my example I docked the hexapeptide NT(8-13) with the sequence RRPYIL into the neurotensin receptor. I did this prospectively, without having looked at the bound peptide conformation before doing this. All I knew was that the C-terminal carboxylate interacts with Arg327 ([http://www.jbc.org/content/275/1/328 Barroso et al, JBC, 2000]) and that the peptide adopts an extended conformation ([http://www.pnas.org/content/100/19/10706 Luca et al, PNAS, 2003]).
In my example I docked the hexapeptide NT(8-13) with the sequence RRPYIL into the neurotensin receptor. I did this prospectively, without having looked at the bound peptide conformation before doing this. All I knew was that the C-terminal carboxylate interacts with Arg327 ([http://www.jbc.org/content/275/1/328 Barroso et al, JBC, 2000]) and that the peptide adopts an extended conformation ([http://www.pnas.org/content/100/19/10706 Luca et al, PNAS, 2003]).


==1. Create an input structure for FlexPepDock==
==1. Create an peptide coordinates==


You can generate peptide coordinates using Pymol (Build->Residue->Alanine). If you want an extended peptide, it is best to generate coordinates for poly-Ala first, and then mutate to your peptide using the mutation wizard (Wizard->Mutagenesis). <br>
You can generate peptide coordinates using Pymol (Build->Residue->Alanine). If you want an extended peptide, it is best to generate coordinates for poly-Ala first, and then mutate to your peptide using the mutation wizard (Wizard->Mutagenesis->Mutate to Arg->Apply). <br>
Save molecule.
Do NOT add a amine at the N-terminus and do NOT add a C-terminal carboxylate to the pymol coordinates!
'''Important note:''' FlexPepDock does not change your Psi angles, so make sure that a proline is in trans if that's what you want!!
'''Important note:''' FlexPepDock does not change your Psi angles, so make sure that a proline is in trans if that's what you want!!
==2. Create input model peptide coordinates==
You need a rough input peptide model for FlexPepDock. The peptide input model should be within 5 Angstroem RMSD to the native structure. You can manually dock your peptide created above into to the receptor by switching to Editing Mode in Pymol, and dragging/rotating the peptide by holding the Shift-Button and Middle and Left-Mouse button, respectively. Don't worry about clashes of the peptide with the protein: the most important thing is that the backbone is within 5 Anstroem of the native structure.
Save the docked peptide coordinates and '''add them at the below of the PDB coordinates''' of the apo receptor structure. It is important to add them below the receptor coordinates, separated by a TER statement. Also, there should be no END statements.
==3. Run prepack.sh==
Run prepack.sh:
./prepack.sh NTS1_rrpyil_input.pdb
Code of prepack.sh:
#!/bin/csh
 
#$1 is the start.pdb
set arch = `uname -p`
if ( $arch == 'x86_64') then
~londonir/rosetta/rosetta_source/bin/FlexPepDocking.static.linuxgccrelease -s $1 -database /raid1/people/londonir/rosetta/rosetta_database -native $1 -flexpep_prepack -ex1 -ex2aro -unboundrot $1 > log.prepack
else
echo "I can only run on a x86_64 system..."
endif
prepack.sh generates pNTS1_rrpyil_input_0001.pdb as output: the protein is now protonated and a N-terminal amine and a C-terminal carboxylate have been added to the peptide.

Revision as of 18:16, 7 May 2013

FlexPepDock: Wanna dock a peptide? Use FlexPepDock!

Interested in peptide docking? Use FlexPepDock, which is a peptide docking software implemented in Rosetta. The easiest way to do that is to use the online server:
http://flexpepdock.furmanlab.cs.huji.ac.il


If you want to run FlexPepDock locally, follow the steps below.
In my example I docked the hexapeptide NT(8-13) with the sequence RRPYIL into the neurotensin receptor. I did this prospectively, without having looked at the bound peptide conformation before doing this. All I knew was that the C-terminal carboxylate interacts with Arg327 (Barroso et al, JBC, 2000) and that the peptide adopts an extended conformation (Luca et al, PNAS, 2003).

1. Create an peptide coordinates

You can generate peptide coordinates using Pymol (Build->Residue->Alanine). If you want an extended peptide, it is best to generate coordinates for poly-Ala first, and then mutate to your peptide using the mutation wizard (Wizard->Mutagenesis->Mutate to Arg->Apply).
Save molecule. Do NOT add a amine at the N-terminus and do NOT add a C-terminal carboxylate to the pymol coordinates! Important note: FlexPepDock does not change your Psi angles, so make sure that a proline is in trans if that's what you want!!


2. Create input model peptide coordinates

You need a rough input peptide model for FlexPepDock. The peptide input model should be within 5 Angstroem RMSD to the native structure. You can manually dock your peptide created above into to the receptor by switching to Editing Mode in Pymol, and dragging/rotating the peptide by holding the Shift-Button and Middle and Left-Mouse button, respectively. Don't worry about clashes of the peptide with the protein: the most important thing is that the backbone is within 5 Anstroem of the native structure.

Save the docked peptide coordinates and add them at the below of the PDB coordinates of the apo receptor structure. It is important to add them below the receptor coordinates, separated by a TER statement. Also, there should be no END statements.

3. Run prepack.sh

Run prepack.sh:

./prepack.sh NTS1_rrpyil_input.pdb

Code of prepack.sh:

#!/bin/csh
 
#$1 is the start.pdb

set arch = `uname -p`
if ( $arch == 'x86_64') then
~londonir/rosetta/rosetta_source/bin/FlexPepDocking.static.linuxgccrelease -s $1 -database /raid1/people/londonir/rosetta/rosetta_database -native $1 -flexpep_prepack -ex1 -ex2aro -unboundrot $1 > log.prepack
else 
echo "I can only run on a x86_64 system..."
endif

prepack.sh generates pNTS1_rrpyil_input_0001.pdb as output: the protein is now protonated and a N-terminal amine and a C-terminal carboxylate have been added to the peptide.