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Accounting for Water Structure and Thermodynamics in Computer-Aided Drug Design

$15,684R01FY2015GMNIH

University Of California, San Diego, La Jolla CA

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Abstract

DESCRIPTION (provided by applicant): This project aims to develop new computational tools that will speed structure-based drug-discovery by providing a detailed analysis of hydration structure and thermodynamics of water in targeted protein binding pockets. The fundamental concept is to discretize the equations of inhomogeneous solvation theory (IST), up to second order, onto 3D grids of energy and entropy in a targeted binding site. These grids will be populated by molecular dynamics (MD) simulations with explicit solvent. The resulting treatment of solvation, termed GIST, will be characterized through comparisons with experimental data and rigorous thermodynamic integration free energy calculations for protein binding pockets. The GIST method will be incorporated into visualization tools to highlight binding site regions where it is particularly favorable or unfavorable to displace solvent, in order to speed ligand design and evaluate the druggability of protein binding pockets. It will also be integrated into fast new functions for ligand docking and scoring, for which promising preliminary results are provided in this proposal. Finally, in order to maximize scientific and health impact, the software will be packaged, documented and disseminated as part of the freely available, widely used and open source AMBER Tools software suite.

View original record on NIH RePORTER →