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Abeta 肽的计算骨干突变:探测骨干氢键在聚集中的作用。

Computational backbone mutagenesis of Abeta peptides: probing the role of backbone hydrogen bonds in aggregation.

机构信息

Department of Bioinformatics and Computational Biology, George Mason University, Manassas, Virginia 20110, USA.

出版信息

J Phys Chem B. 2010 Apr 15;114(14):4755-62. doi: 10.1021/jp911533q.

DOI:10.1021/jp911533q
PMID:20302321
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2862262/
Abstract

Using replica exchange molecular dynamics (REMD) and united atom implicit solvent model we examine the role of backbone hydrogen bonds (HBs) in Abeta aggregation. The importance of HBs appears to depend on the aggregation stage. The backbone HBs have little effect on the stability of Abeta dimers or on their aggregation interface. The HBs also do not play a critical role in initial binding of Abeta peptides to the amyloid fibril. Their elimination does not change the continuous character of Abeta binding nor its temperature. However, cancellation of HBs forming between incoming Abeta peptides and the fibril disrupts the locked fibril-like states in the bound peptides. Without the support of HBs, bound Abeta peptides form few long beta-strands on the fibril edge. As a result, the deletion of peptide-fibril HBs is expected to impede fibril growth. As for the peptides bound to Abeta fibril the deletion of interpeptide HBs reduces the beta propensity in the dimers making them less competent for amyloid assembly. These simulation findings together with the backbone mutagenesis experiments suggest that a viable strategy for arresting fibril growth is the disruption of interpeptide HBs.

摘要

我们使用复制交换分子动力学(REMD)和统一原子隐式溶剂模型来研究β-淀粉样蛋白聚集过程中骨架氢键(HBs)的作用。HBs 的重要性似乎取决于聚集阶段。HBs 对 Abeta 二聚体的稳定性或其聚集界面几乎没有影响。HBs 在 Abeta 肽初始结合到淀粉样纤维上也没有起到关键作用。它们的消除不会改变 Abeta 结合的连续性或其温度。然而,消除 Abeta 肽之间形成的 HBs 会破坏结合肽中的锁定纤维状状态。没有 HBs 的支持,结合的 Abeta 肽在纤维边缘上形成的β-链很少。因此,预计肽-纤维 HBs 的缺失会阻碍纤维的生长。对于结合到 Abeta 纤维上的肽,消除肽间 HBs 会降低二聚体中的β-倾向,使它们不太适合淀粉样蛋白组装。这些模拟结果与骨架诱变实验一起表明,阻止纤维生长的可行策略是破坏肽间 HBs。

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