Abstract

Docking is a computational technique that samples conformations of small molecules in protein binding sites; scoring functions are used to assess which of these conformations best complements the protein binding site. An evaluation of 10 docking programs and 37 scoring functions was conducted against eight proteins of seven protein types for three tasks: binding mode prediction, virtual screening for lead identification, and rank-ordering by affinity for lead optimization. All of the docking programs were able to generate ligand conformations similar to crystallographically determined protein/ligand complex structures for at least one of the targets. However, scoring functions were less successful at distinguishing the crystallographic conformation from the set of docked poses. Docking programs identified active compounds from a pharmaceutically relevant pool of decoy compounds; however, no single program performed well for all of the targets. For prediction of compound affinity, none of the docking programs or scoring functions made a useful prediction of ligand binding affinity.

Keywords

Docking (animal)ChemistryVirtual screeningProtein–ligand dockingDecoyComputational biologySearching the conformational space for dockingLigand (biochemistry)Protein structureStereochemistryDrug discoveryBiochemistryReceptorBiology

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Year
2005
Type
article
Volume
49
Issue
20
Pages
5912-5931
Citations
1640
Access
Closed

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Cite This

Gregory L. Warren, C. Webster Andrews, Anna‐Maria Capelli et al. (2005). A Critical Assessment of Docking Programs and Scoring Functions. Journal of Medicinal Chemistry , 49 (20) , 5912-5931. https://doi.org/10.1021/jm050362n

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DOI
10.1021/jm050362n