Abstract
The purpose of this study was to determine the potentials of mean force (PMF) of the interactions between models of like-charged and between models of charged and nonpolar amino acid side chains in water to design improved side chain−side chain interaction potentials for our united residue UNRES force field for protein-structure prediction. Restrained molecular dynamics with the AMBER force field, the TIP3P model of water, and the Ewald summation were used to carry out simulations, and the weighted histogram analysis method (WHAM) was used to calculate the PMFs as functions of solute−solute distances. The following types of systems were considered to model the interactions between like-charged side chains and the interactions between charged and nonpolar side chains: (i) a pair of positively charged ions (potassium, ammonium, and guanidine, respectively); (ii) a pair of negatively charged ions (chloride and acetate, respectively), and (iii) pairs of methane with potassium, ammonium, and chloride ions, re...
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