Tools for protein and ligand analysis: Difference between revisions

Revision as of 19:33, 8 May 2013

Plop: Introduction to this powerful tool to minimize ligands and receptors/active sites.
omega.parm: How to change settings for ligand conformation generation in Omega.
screen3d: How to align ligands in 3D. Useful to see if bioactive ligand conformation is sampled.
Phenix: How to calculate electron densities and display them in Pymol.
filter.py: How to calculate atom distances of DOCK poses to reference coordinates. Useful to analyze docking results.
FlexPepDock: Flexible peptide docking using Rosetta.
DOCK Sampling: How to check if you actually sampled a bioactive orientation in DOCK (using Niu Huang's ligand clustering DOCK binary).
DOCK6 RMSD: Easy tool calculate ligand RMSDs using DOCK 6.6.

@@ Line 1: / Line 1: @@
 *[http://wiki.uoft.bkslab.org/index.php/Plop Plop]: Introduction to this powerful tool to minimize ligands and receptors/active sites.
 *[http://wiki.uoft.bkslab.org/index.php/Omega.parm omega.parm]: How to change settings for ligand conformation generation in Omega.
-*[http://wiki.uoft.bkslab.org/index.php/screen3d screen3d]: Align ligands in 3D. Useful to see if bioactive ligand conformation is sampled.
+*[http://wiki.uoft.bkslab.org/index.php/screen3d screen3d]: How to align ligands in 3D. Useful to see if bioactive ligand conformation is sampled.
 *[http://wiki.uoft.bkslab.org/index.php/Phenix Phenix]: How to calculate electron densities and display them in Pymol.
 *[http://wiki.uoft.bkslab.org/index.php/filter.py: filter.py]: How to calculate atom distances of DOCK poses to reference coordinates. Useful to analyze docking results.