OPLS3: A Force Field Providing Broad Coverage of Drug-like Small Molecules and Proteins

Harder, Edward; Damm, Wolfgang; Maple, Jon R.; Wu, Chuanjie; Reboul, Mark; Xiang, Jin Yu; Wang, Lingle; Lupyan, Dmitry; Dahlgren, Markus K.; Knight, Jennifer L.; Kaus, Joseph W.; Cerutti, David S.; Krilov, Goran; Jorgensen, William L.; Abel, Robert; Friesner, Richard A.

doi:10.1021/acs.jctc.5b00864

articleJournal of Chemical Theory and ComputationNov 17, 2015Closed access

OPLS3: A Force Field Providing Broad Coverage of Drug-like Small Molecules and Proteins

EHEdward Harder WDWolfgang Damm JRJon R. Maple CWChuanjie Wu MRMark Reboul

Schrodinger (United States) · Yale University · +1 more institution

PubMed

Indexed incrossrefpubmed

Abstract

The parametrization and validation of the OPLS3 force field for small molecules and proteins are reported. Enhancements with respect to the previous version (OPLS2.1) include the addition of off-atom charge sites to represent halogen bonding and aryl nitrogen lone pairs as well as a complete refit of peptide dihedral parameters to better model the native structure of proteins. To adequately cover medicinal chemical space, OPLS3 employs over an order of magnitude more reference data and associated parameter types relative to other commonly used small molecule force fields (e.g., MMFF and OPLS_2005). As a consequence, OPLS3 achieves a high level of accuracy across performance benchmarks that assess small…

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Topics

Keywords

Force field (fiction)
Small molecule
Chemistry
Molecule
Dihedral angle
Parametrization (atmospheric modeling)
Computational chemistry
Implicit solvation

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