β-发夹的展开和折叠内摩擦小于α-螺旋。

Unfolding and folding internal friction of β-hairpins is smaller than that of α-helices.

机构信息

Fachbereich Physik, Freie Universität Berlin, 14195 Berlin, Germany.

出版信息

J Phys Chem B. 2015 Apr 2;119(13):4565-74. doi: 10.1021/jp512056k. Epub 2015 Mar 18.

DOI:10.1021/jp512056k

Abstract

By the forced unfolding of polyglutamine and polyalanine homopeptides in competing α-helix and β-hairpin secondary structures, we disentangle equilibrium free energetics from nonequilibrium dissipative effects. We find that α-helices are characterized by larger friction or dissipation upon unfolding, regardless of whether they are free energetically preferred over β-hairpins or not. Our analysis, based on MD simulations for atomistic peptide models with explicit water, suggests that this difference is related to the internal friction and mostly caused by the different number of intrapeptide hydrogen bonds in the α-helix and β-hairpin states.

摘要

通过迫使多聚谷氨酰胺和多聚丙氨酸同聚肽在竞争的α-螺旋和β-发夹二级结构中展开，我们将平衡自由能与非平衡耗散效应区分开来。我们发现，无论α-螺旋在自由能上是否优先于β-发夹，它们在展开时的摩擦力或耗散都更大。我们的分析基于带有显式水的原子肽模型的 MD 模拟，表明这种差异与内部摩擦有关，主要是由α-螺旋和β-发夹状态下的肽内氢键数量不同引起的。

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β-发夹的展开和折叠内摩擦小于α-螺旋。

Unfolding and folding internal friction of β-hairpins is smaller than that of α-helices.

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