用于改进蛋白质主链二面角参数的高水平从头计算

High-Level ab Initio Calculations To Improve Protein Backbone Dihedral Parameters.

作者信息

Fujitani Hideaki, Matsuura Azuma, Sakai Sino, Sato Hiroyuki, Tanida Yoshiaki

机构信息

Fujitsu Laboratories Ltd., 10-1 Morinosato-Wakamiya, Atsugi 243-0197, Japan.

出版信息

J Chem Theory Comput. 2009 Apr 14;5(4):1155-65. doi: 10.1021/ct8005437.

DOI:10.1021/ct8005437

PMID:26609625

Abstract

We present new molecular mechanical dihedral parameters for the Ramachandran angles ϕ and ψ of a protein backbone based on high-level ab initio molecular orbital calculations for hydrogen-blocked or methyl-blocked glycine and alanine dipeptides. Fully relaxed 15° (ϕ, ψ) contour maps were calculated at the MP2/6-31G(d) level of theory. Finding out the lowest energy path for ϕ (or ψ) to change from -180° to 180° in the contour map, we performed a DF-LCCSD(T0)/Aug-cc-pVTZ//DF-LMP2/Aug-cc-pVTZ level calculation to get the torsional energy profiles of ϕ (or ψ). Molecular mechanical torsion profiles with AMBER force field variants significantly differed from the ab initio profiles, so we derived new molecular mechanical dihedral parameters of a protein backbone to fit the ab initio profiles.

摘要

我们基于对氢封闭或甲基封闭的甘氨酸和丙氨酸二肽进行的高水平从头算分子轨道计算，给出了蛋白质主链拉马钱德兰角ϕ和ψ的新分子力学二面角参数。在MP2/6 - 31G(d)理论水平下计算了完全松弛的15°(ϕ, ψ)等高线图。在等高线图中找出ϕ（或ψ）从-180°变化到180°的最低能量路径，我们进行了DF-LCCSD(T0)/Aug-cc-pVTZ//DF-LMP2/Aug-cc-pVTZ水平计算以获得ϕ（或ψ）的扭转能分布。具有AMBER力场变体的分子力学扭转分布与从头算分布有显著差异，因此我们推导了蛋白质主链的新分子力学二面角参数以拟合从头算分布。

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用于改进蛋白质主链二面角参数的高水平从头计算

High-Level ab Initio Calculations To Improve Protein Backbone Dihedral Parameters.

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