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糖蛋白Ib的β-转换区域中的流动诱导结构转变。

Flow-induced structural transition in the beta-switch region of glycoprotein Ib.

作者信息

Chen Zhongzhou, Lou Jizhong, Zhu Cheng, Schulten Klaus

机构信息

Theoretical and Computational Biophysics Group, Beckman Institute, University of Illinois at Urbana-Champaign, Urbana, Illinois, USA.

出版信息

Biophys J. 2008 Aug;95(3):1303-13. doi: 10.1529/biophysj.108.132324. Epub 2008 Apr 25.

DOI:10.1529/biophysj.108.132324
PMID:18441028
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2479615/
Abstract

The impact of fluid flow on structure and dynamics of biomolecules has recently gained much attention. In this article, we present a molecular-dynamics algorithm that serves to generate stable water flow under constant temperature, for the study of flow-induced protein behavior. Flow simulations were performed on the 16-residue beta-switch region of platelet glycoprotein Ibalpha, for which crystal structures of its N-terminal domain alone and in complex with the A1 domain of von Willebrand factor have been solved. Comparison of the two structures reveals a conformational change in this region, which, upon complex formation, switches from an unstructured loop to a beta-hairpin. Interaction between glycoprotein Ibalpha and von Willebrand factor initiates platelet adhesion to injured vessel walls, and the adhesion is enhanced by blood flow. It has been hypothesized that the loop to beta-hairpin transition in glycoprotein Ib alpha is induced by flow before binding to von Willebrand factor. The simulations revealed clearly a flow-induced loop-->beta-hairpin transition. The transition is dominated by the entropy of the protein, and is seen to occur in two steps, namely a dihedral rotation step followed by a side-group packing step.

摘要

流体流动对生物分子结构和动力学的影响最近备受关注。在本文中,我们提出了一种分子动力学算法,用于在恒温条件下生成稳定的水流,以研究流动诱导的蛋白质行为。对血小板糖蛋白Ibalpha的16个残基β-开关区域进行了流动模拟,其单独的N端结构域以及与血管性血友病因子A1结构域复合物的晶体结构已得到解析。两种结构的比较揭示了该区域的构象变化,在形成复合物时,它从无结构的环转变为β-发夹结构。糖蛋白Ibalpha与血管性血友病因子之间的相互作用引发血小板黏附于受损血管壁,并且血流会增强这种黏附。据推测,在与血管性血友病因子结合之前,糖蛋白Ibα中环向β-发夹的转变是由流动诱导的。模拟结果清楚地显示了流动诱导的环向β-发夹转变。这种转变主要由蛋白质的熵主导,并且可以看到它分两步发生,即二面角旋转步骤,随后是侧链堆积步骤。

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