高阶构象子空间中五肽的能量格局

K. ElSawy
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引用次数: 9

摘要

通过对PDB非冗余代表性蛋白质结构集的主成分分析,将五肽的势能格局映射到一个集体坐标主构象子空间中。(Ala)5、(Gly)5和val . asn . thrr . phe这三个五肽序列在二级结构特征上是不同的。瓦尔,被考虑过。将景观划分为不同的能量谷,可以在统计力学框架中计算肽二级结构的相对倾向。观察到的五肽构象分布与(Ala)5序列的能量景观拓扑具有良好的对应关系,其中α-螺旋在298 K处表现出优势倾向,与报道的趋势一致。地形特征表明,(Ala)5层序α-螺旋的稳定主要是焓稳定,而val . asn . thr . phev . val层序α-螺旋的稳定主要是熵稳定。结果表明,局部相互作用在小的五肽段可以导致一个二级结构的构象偏好超过另一个构象熵的计算是重要的,以揭示这种偏好。因此,该方法可以为从头计算蛋白质折叠方法提供关键的结构信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy Landscape of Pentapeptides in a Higher-Order Conformational Subspace
The potential energy landscape of pentapeptides was mapped in a collective coordinate principal conformational subspace derived from principal component analysis of a nonredundant representative set of protein structures from the PDB. Three pentapeptide sequences that are known to be distinct in terms of their secondary structure characteristics, (Ala)5, (Gly)5, and Val.Asn.Thr.Phe.Val, were considered. Partitioning the landscapes into different energy valleys allowed for calculation of the relative propensities of the peptide secondary structures in a statistical mechanical framework. The distribution of the observed conformations of pentapeptide data showed good correspondence to the topology of the energy landscape of the (Ala)5 sequence where, in accord with reported trends, the α-helix showed a predominant propensity at 298 K. The topography of the landscapes indicates that the stabilization of the α-helix in the (Ala)5 sequence is enthalpic in nature while entropic factors are important for stabilization of the β-sheet in the Val.Asn.Thr.Phe.Val sequence. The results indicate that local interactions within small pentapeptide segments can lead to conformational preference of one secondary structure over the other where account of conformational entropy is important in order to reveal such preference. The method, therefore, can provide critical structural information for ab initio protein folding methods.
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