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Current Computer-Aided Drug Design

Editor-in-Chief

ISSN (Print): 1573-4099
ISSN (Online): 1875-6697

The Challenge of Considering Receptor Flexibility in Ligand Docking and Virtual Screening

Author(s): Claudio N. Cavasotto, Andrew J.W. Orry and Ruben A. Abagyan

Volume 1, Issue 4, 2005

Page: [423 - 440] Pages: 18

DOI: 10.2174/157340905774330291

Price: $65

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Abstract

Computational ligand docking and screening is widely employed throughout the pharmaceutical industry to speed up the drug discovery process and identify drug candidates from very large pools of virtual compound libraries. When a ligand interacts with a receptor a number of structural changes within the ligand binding site might occur. It is therefore critical for these methods to accurately predict, or otherwise take into account the receptor flexibility upon ligand binding. This flexibility within the binding pocket explains why a diverse range of ligand sizes and shapes can sometimes bind to the same receptor pocket. This observation supersedes the notion that ligand-receptor interaction is a purely lock and key mechanism. The capability to correctly predict molecular interactions is critical for computer-aided molecular design technology. In this review, we discuss biological cases of receptor flexibility upon ligand binding that can range from large-scale movement of loops to single gate-keeper amino acid movements. In addition, we provide further evidence that rigid receptor docking alone will more than likely fail in the drug-discovery process. We then discuss computational methods, which have been developed to mimic flexibility within the binding pocket and predict ligand-receptor interactions. Early flexible receptor docking methods used soft-potential docking and rotamer libraries. More recently methods have focused on constructing an ensemble of structures generated by a variety of means including X-ray crystallography, NMR, Monte Carlo sampling, Normal Modes-based methods and Molecular Dynamics. It is evident that methods that ignore receptor flexibility can result in poorly docked solutions and therefore the challenge is to develop computational methods, which can accurately and efficiently predict this phenomenon.

Keywords: ligand docking, receptor flexibility, virtual screening, scoring, multiple receptor conformations, monte carlo, molecular dynamics, computer-aided drug discovery

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