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采用密度泛函理论,利用 CPCM 和 SM5.2 水连续体模型,研究了具有特定水分子的聚丙氨酸α-螺旋的水溶剂化。

Aqueous solvation of polyalanine α-helices with specific water molecules and with the CPCM and SM5.2 aqueous continuum models using density functional theory.

机构信息

Department of Chemistry, City University of New York-Hunter College and the Graduate School, 695 Park Avenue, New York, New York 10065, USA.

出版信息

J Phys Chem B. 2012 Feb 2;116(4):1437-45. doi: 10.1021/jp209177u. Epub 2012 Jan 23.

DOI:10.1021/jp209177u
PMID:22201227
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3271136/
Abstract

We present density functional theory (DFT) calculations at the X3LYP/D95(d,p) level on the solvation of polyalanine α-helices in water. The study includes the effects of discrete water molecules and the CPCM and AMSOL SM5.2 solvent continuum model both separately and in combination. We find that individual water molecules cooperatively hydrogen-bond to both the C- and N-termini of the helix, which results in increases in the dipole moment of the helix/water complex to more than the vector sum of their individual dipole moments. These waters are found to be more stable than in bulk solvent. On the other hand, individual water molecules that interact with the backbone lower the dipole moment of the helix/water complex to below that of the helix itself. Small clusters of waters at the termini increase the dipole moments of the helix/water aggregates, but the effect diminishes as more waters are added. We discuss the somewhat complex behavior of the helix with the discrete waters in the continuum models.

摘要

我们在 X3LYP/D95(d,p)水平上进行了密度泛函理论(DFT)计算,研究了聚丙氨酸α-螺旋在水中的溶剂化作用。该研究分别考虑了离散水分子以及 CPCM 和 AMSOL SM5.2 溶剂连续体模型的影响,以及它们的组合影响。我们发现,单个水分子协同地与螺旋的 C-和 N-末端形成氢键,这导致螺旋/水复合物的偶极矩增加到超过其各自偶极矩的矢量和。这些水分子比在本体溶剂中更稳定。另一方面,与骨架相互作用的单个水分子会降低螺旋/水复合物的偶极矩,使其低于螺旋本身的偶极矩。在末端的小簇水分子会增加螺旋/水聚集体的偶极矩,但随着加入的水分子增多,这种效应会减弱。我们讨论了螺旋在连续体模型中与离散水分子的复杂行为。

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