On the transferability of hydration‐parametrized continuum electrostatics models to solvated binding calculations
- 14 April 2003
- journal article
- Published by Wiley in Journal of Computational Chemistry
- Vol. 24 (8), 954-962
- https://doi.org/10.1002/jcc.10261
Abstract
Using molecular mechanics force field partial atomic charges, we show the nonuniqueness of the parametrization of continuum electrostatics models with respect to solute atomic radii and interior dielectric constant based on hydration (vacuum‐to‐water transfer) free energy data available for small molecules. Moreover, parameter sets that are optimal and equivalent for hydration free energy calculations lead to large variations of calculated absolute and relative electrostatic binding free energies. Hence, parametrization of solvation effects based on hydration data, although a necessary condition, is not sufficient to guarantee its transferability to the calculation of binding free energies in solution. © 2003 Wiley Periodicals, Inc. J Comput Chem 24: 954–962, 2003Keywords
This publication has 37 references indexed in Scilit:
- Computer Simulation of Protein−Protein InteractionsThe Journal of Physical Chemistry B, 2001
- Extension of the platform of applicability of the SM5.42R universal solvation modelTheoretical Chemistry Accounts, 1999
- Fast summation boundary element method for calculating solvation free energies of macromoleculesJournal of Computational Chemistry, 1998
- A simple yet accurate boundary element method for continuum dielectric calculationsJournal of Computational Chemistry, 1995
- Classical Electrostatics in Biology and ChemistryScience, 1995
- Molecular Interactions in Solution: An Overview of Methods Based on Continuous Distributions of the SolventChemical Reviews, 1994
- Macroscopic models of aqueous solutions: biological and chemical applicationsThe Journal of Physical Chemistry, 1993
- Electrostatics in biomolecular structure and dynamicsChemical Reviews, 1990
- Group contributions to the thermodynamic properties of non-ionic organic solutes in dilute aqueous solutionJournal of Solution Chemistry, 1981
- Affinities of amino acid side chains for solvent waterBiochemistry, 1981