Difference between revisions of "Cross Docking SB2024 V1 DOCK6.10 A"
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==III.Aligning protein families== | ==III.Aligning protein families== | ||
+ | The first step is to align protein families using the program Chimera. This tutorial will not cover how protein families are determined, although one option is to restrict a family to structures with a single "UniProt ID" and no differing mutations within an active site. | ||
==IV.Docking molecules== | ==IV.Docking molecules== |
Revision as of 15:00, 21 February 2024
!!!!!!Under Construction!!!!!!
The purpose of this tutorial is to develop a uniform method to test cross docking across the Rizzo lab with the DOCK software. Note any data in this tutorial is solely for the purpose of example.
Contents
I.Introduction
- Cross docking is a test which is fundamentally similar to pose reproduction. If you are not experienced running pose reproduction yet, begin with:
https://ringo.ams.stonybrook.edu/index.php/Pose_Reproduction_Tutorial
- Cross docking measures pose reproduction accuracy with differing protein conformations/ structures as an additonal variable. It is a more translatable test to "real world" virtual screening, because it tests the ability to identify native poses, even when protein conformation/ sidechain packing is not induced to the particular ligand. When virual screening with a rigid receptor, the particular conformation chosen will not be ideal for all binder chemotypes, but nonetheless it is desirable to predict near native poses.
- The outcomes for cross docking are the same as pose reproduction, although there is a fourth outcome termed "incompatible". This is when a ligand is energetically incompatible in its native pose when complexed in an alternative, rigid, structure of the protein.
II.Necessary files
Scripts to run Cross Docking in batch mode are found at:
https://github.com/rizzolab/Benchmarking_and_Validation
This tutorial rebuilds systems in an aligned frame. Thus standard test set files are not applicable because proteins families will not necessarily be aligned at protein backbone. Instead of directly using a finalized and prepared test set as Pose Reproduction does, this prepares files from initial preparatory files. The list of necessary files are:
${pdb_id}.lig.moe.mol2 ${pdb_id}.rec.foramber.pdb
III.Aligning protein families
The first step is to align protein families using the program Chimera. This tutorial will not cover how protein families are determined, although one option is to restrict a family to structures with a single "UniProt ID" and no differing mutations within an active site.
IV.Docking molecules
V.Cross Docking Analysis
-SEE README FILE IN GIT REPO FOR ADDTIONAL DETAILS THAT MAY NOT BE COVERED HERE
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Tutorial Written By: Christopher Corbo, Rizzo Lab, Stony Brook University (2024)
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