Development of glycyl radical parameters for the OPLS?AA/L force field

## Abstract The parameters for the OPLS–AA potential energy function have been extended to include some functional groups that are present in macrocyclic polyketides. Existing OPLS–AA torsional parameters for alkanes, alcohols, ethers, hemiacetals, esters, and ketoamides were improved based on MP2/

## Abstract Phosphorylation of histidine‐containing proteins is a key step in the mechanism of many phosphate transfer enzymes (kinases, phosphatases) and is the first stage in a wide variety of signal transduction cascades in bacteria, yeast, higher plants, and mammals. Studies of structural and d

## Abstract Accurate force fields are essential for reproducing the conformational and dynamic behavior of condensed‐phase systems. The popular AMBER force field has parameters for monophosphates, but they do not extend well to polyphorylated molecules such as ADP and ATP. This work presents parame

## Abstract Nonbonded and torsional parameters for carboxylate esters, nitriles, and nitro compounds have been developed for the OPLS‐AA force field. In addition, torsional parameters for alkanes have been updated. These parameters were fit to reproduce __ab initio__ gas‐phase structures and confor

## Abstract Modern classical force fields have been traditionally parameterized by attempting to maximize agreement to any number of experimental and/or quantum mechanical target properties. As these force fields are pushed towards obtaining quantitative estimates of often subtle energetic differen