蛋白质功能的调节：晶体包装界面和构象二聚化。

Regulation of protein function: crystal packing interfaces and conformational dimerization.

机构信息

UCD School of Biomolecular and Biomedical Science, Conway Institute, University College Dublin, Belfield, Dublin 4, Ireland.

出版信息

Biochemistry. 2008 Jun 24;47(25):6583-9. doi: 10.1021/bi800125h.

DOI:10.1021/bi800125h

PMID:18479147

Abstract

The accepted view of interprotein electron transport involves molecules diffusing between donor and acceptor redox sites. An emerging alternative hypothesis is that efficient long-range electron transport can be achieved through proteins arranged in supramolecular assemblies. In this study, we have investigated the crystal packing interfaces in three crystal forms of plastocyanin, an integral component of the photosynthetic electron transport chain, and discuss their potential relevance to in vivo supramolecular assemblies. Symmetry-related protein chains within these crystals have Cu-Cu separations of <25 A, a distance that readily supports electron transfer. In one structure, the plastocyanin molecule exists in two forms in which a backbone displacement coupled with side chain rearrangements enables the modulation of protein-protein interfaces.

摘要

公认的蛋白间电子传递涉及分子在供体和受体氧化还原位点之间扩散。一个新兴的替代假设是，通过排列在超分子组装中的蛋白质可以实现有效的长程电子传递。在这项研究中，我们研究了三种晶体形式的质体蓝素的晶体堆积界面，质体蓝素是光合作用电子传递链的一个组成部分，并讨论了它们与体内超分子组装的潜在相关性。这些晶体中相关的对称蛋白链之间的 Cu-Cu 分离小于 25A，这个距离很容易支持电子转移。在一个结构中，质体蓝素分子存在两种形式，其中骨架位移与侧链重排相结合，使蛋白-蛋白界面的调制成为可能。

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蛋白质功能的调节：晶体包装界面和构象二聚化。

Regulation of protein function: crystal packing interfaces and conformational dimerization.

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