A molecular mechanics force field for conformational analysis of alkanethiols and thioethers

## Abstract A CHARMM molecular mechanics force field for lignin is derived. Parameterization is based on reproducing quantum mechanical data of model compounds. Partial atomic charges are derived using the RESP electrostatic potential fitting method supplemented by the examination of methoxybenzene

## Abstract A parameterization has been performed of the biologically important sterols cholesterol, ergosterol, and lanosterol for the CHARMM27 all‐atom molecular mechanics force field. An automated parameterization method was used that involves fitting the potential to vibrational frequencies and

A molecular mechanics force field was developed for systems bearing the N -C -0 unit on the basis of 6-31G\* and 4-21G %b initio" calculations with full optimization of the geometry and experimental heats of formation. The parameters used, which implicitly included the anomeric effect, provided good

## Abstract Understanding the conformational flexibility of amino acid zwitterions (ZWs) and their associated conformational energies is crucial for predicting their interactions in biological systems. Gas‐phase __ab initio__ calculations of ZWs are intractable. Molecular mechanics (MM), on the oth