Molecular simulation of alkyl boronic acids: Molecular mechanics and solvation free energy calculations

The boronic acid functional group has been incorporated into various biologically important compounds. In order to study this class of compounds better with molecular mechanics, five alkyl-and arylboronic acids were calculated using ab initio methods (Spartan) at the RHF/6-31G \* level. MM3 force fi

## Abstract Using molecular dynamics simulation, we present new results for the free energy of solvation for solvents with low dielectric constants (CCl~4~, CHCl~3~, benzene). The solvation free energy is computed as the sum of three contributions originated at the cavitation of the solute by the s

The aqueous solvation free energies of ionized molecules were computed using a coupled quantum mechanical and molecular mechanical Ž . QMrMM model based on the AM1, MNDO, and PM3 semiempirical molecular orbital methods for the solute molecule and the TIP3P molecular mechanics model for liquid water.

A recently developed method for predicting binding affinities in ligand᎐receptor complexes, based on interaction energy averaging and conformational sampling by molecular dynamics simulation, is presented. Polar and nonpolar contributions to the binding free energy are approximated by a linear scali

In this work, we address two critical aspects of calculation of the free energy differences in molecular systems from molecular simulations. The first aspect involves checking whether the calculated free energy difference depends significantly on the extent of perturbation used for accomplishment of