New insights into the molecular mechanism of the Rab GTPase Sec4p activation

Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2015-08-12 DOI:10.1186/s12900-015-0041-5

Fabio C. Rinaldi, Michael Packer, Ruth Collins

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引用次数: 8

Abstract

Sec4p is a small monomeric Ras-related GTP-binding protein (23?kDa) that regulates polarized exocytosis in S. cerevisiae. In this study we examine the structural effects of a conserved serine residue in the P-loop corresponding to G12 in Ras.

We show that the Sec4p residue serine 29 forms a hydrogen bond with the nucleotide. Mutations of this residue have a different impact than equivalent mutations in Ras and can form stable associations with the exchange factor allowing us to elucidate the structure of a complex of Sec4p bound to the exchange factor Sec2p representing an early stage of the exchange reaction.

Our structural investigation of the Sec4p-Sec2p complex reveals the role of the Sec2p coiled-coil domain in facilitating the fast kinetics of the exchange reaction. For Ras-family GTPases, single point mutations that impact the signaling state of the molecule have been well described however less structural information is available for equivalent mutations in the case of Rab proteins. Understanding the structural properties of mutants such as the one described here, provides useful insights into unique aspects of Rab GTPase function.

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Rab GTPase Sec4p活化分子机制的新见解

Sec4p是一种小单体ras相关gtp结合蛋白(23kda)，在酿酒酵母中调节极化胞外分泌。在这项研究中，我们研究了与Ras中G12相对应的p环中一个保守的丝氨酸残基的结构效应。我们发现Sec4p残基丝氨酸29与核苷酸形成氢键。该残基的突变与Ras中的等效突变具有不同的影响，并且可以与交换因子形成稳定的关联，从而使我们能够阐明Sec4p与交换因子Sec2p结合的复合物的结构，该复合物代表交换反应的早期阶段。我们对Sec4p-Sec2p复合物的结构研究揭示了Sec2p线圈结构域在促进交换反应的快速动力学中的作用。对于ras -家族gtpase，单点突变影响分子信号传导状态已经被很好地描述，但对于Rab蛋白的等效突变，结构信息较少。了解突变体的结构特性，例如这里描述的突变体，可以提供对Rab GTPase功能独特方面的有用见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Structural Biology BIOPHYSICS-

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.