Development of polyphosphate parameters for use with the AMBER force field

## 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 On the basis of quantum chemical calculations C^α^‐glycyl radical parameters have been developed for the OPLS‐AA/L force field. The molecular mechanics hypersurface was fitted to the calculated quantum chemical surface by minimizing their molecular mechanics parameter dependent sum‐of‐s

To establish force-field-based (molecular) modeling capability that will accurately predict condensed-phase thermophysical properties for materials containing aliphatic azide chains, potential parameters for atom types unique to such chains have been developed and added to the COMPASS force field. T

## Abstract We describe the development of force field parameters for methylated lysines and arginines, and acetylated lysine for the CHARMM all‐atom force field. We also describe a CHARMM united‐atom force field for modified sidechains suitable for use with fragment‐based docking methods. The deve

## Abstract Based on the AMBER polarizable model (ff02), we have reoptimized the parameters related to the main‐chain (Φ, Ψ) torsion angles by fitting to the Boltzmann‐weighted average quantum mechanical (QM) energies of the important regions (i.e., β, P~II~, α~R~, and α~L~ regions). Following the