Optimizations of force-field parameters for protein systems with the secondary-structure stability and instability


الملخص بالإنكليزية

We propose a novel method for refining force-field parameters of protein systems. In this method, the agreement of the secondary-structure stability and instability between the protein conformations obtained by experiments and those obtained by molecular dynamics simulations is used as a criterion for the optimization of force-field parameters. As an example of the applications of the present method, we refined the force-field parameter set of the AMBER ff99SB force field by searching the torsion-energy parameter spaces of $psi$ (N-C$^{alpha}$-C-N) and $zeta$ (C$^{beta}$-C$^{alpha}$-C-N) of the backbone dihedral angles. We then performed folding simulations of $alpha$-helical and $beta$-hairpin peptides, using the optimized force field. The results showed that the new force-field parameters gave structures more consistent with the experimental implications than the original AMBER ff99SB force field.

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