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  • Title: Energetics and J-coupling constants for Ala, Gly, and Val peptides demonstrated using ABEEM polarizable force field in vacuo and an aqueous solution.
    Author: Zhang C, Zhao DX, Feng Y, Wang J, Yang ZZ.
    Journal: Phys Chem Chem Phys; 2022 Feb 16; 24(7):4232-4250. PubMed ID: 35133357.
    Abstract:
    The development of an atom-bond electronegativity equalisation method at the σπ-level (ABEEM) polarisable force field (PFF) for peptides is presented. ABEEM PFF utilises a fluctuating charge model to explicitly describe the polarisation effects in an extensive environment. The partial charge of any individual site changes in response to changes in its surroundings. The peptide parameters are derived from ab initio methods in vacuum using a consistent and automatic protocol. By including explicit σ- and π-bond sites and lone pair sites, the anisotropy around an atom has been characterised. The fluctuating charge at each site ensures the distinction between the intrinsic behaviour observed among the various conformations of peptides, as corroborated by the agreement between quantum mechanics (QM) and ABEEM PFF concerning the calculated energy order, charge distribution, locations of minima, and potential energy surface (PES) in vacuo. The energy barriers in the PES have been clearly described using ABEEM PFF, in which a good charge distribution plays a vital role. Molecular dynamic simulations have been performed for short peptides in explicit ABEEM 7P-water boxes to examine their conformational properties in solution. The J-coupling constants obtained using ABEEM PFF are consistent with the experimental nuclear magnetic resonance (NMR) spectra and the influence of the chain length and temperature also investigated. The results demonstrate that the ABEEM PFF method is capable of locating conformations and describing the energetics of peptides with high accuracy and efficiency both in vacuo and an aqueous solution.
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