细菌鞭毛旋转器 MS 环中的对称性不匹配解释了分泌和旋转的结构协调性。

Symmetry mismatch in the MS-ring of the bacterial flagellar rotor explains the structural coordination of secretion and rotation.

机构信息

Sir William Dunn School of Pathology, University of Oxford, Oxford, UK.

Central Oxford Structural Molecular Imaging Centre, University of Oxford, Oxford, UK.

出版信息

Nat Microbiol. 2020 Jul;5(7):966-975. doi: 10.1038/s41564-020-0703-3. Epub 2020 Apr 13.

DOI:10.1038/s41564-020-0703-3

PMID:32284565

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7320910/

Abstract

The bacterial flagellum is a complex self-assembling nanomachine that confers motility to the cell. Despite great variation across species, all flagella are ultimately constructed from a helical propeller that is attached to a motor embedded in the inner membrane. The motor consists of a series of stator units surrounding a central rotor made up of two ring complexes, the MS-ring and the C-ring. Despite many studies, high-resolution structural information is still lacking for the MS-ring of the rotor, and proposed mismatches in stoichiometry between the two rings have long provided a source of confusion for the field. Here, we present structures of the Salmonella MS-ring, revealing a high level of variation in inter- and intrachain symmetry that provides a structural explanation for the ability of the MS-ring to function as a complex and elegant interface between the two main functions of the flagellum-protein secretion and rotation.

摘要

细菌鞭毛是一种复杂的自组装纳米机器，赋予细胞运动能力。尽管在不同物种之间存在很大的差异，但所有的鞭毛最终都是由一个螺旋桨组成的，螺旋桨连接着嵌入内膜的马达。马达由一系列定子单元组成，围绕着由两个环复合物组成的中央转子，即 MS 环和 C 环。尽管进行了许多研究，但转子的 MS 环的高分辨率结构信息仍然缺乏，而且两个环之间的化学计量比提出的不匹配长期以来一直是该领域混淆的一个来源。在这里，我们展示了沙门氏菌 MS 环的结构，揭示了链间和链内对称性的高度变化，为 MS 环作为鞭毛两个主要功能（蛋白分泌和旋转）之间复杂而优雅的接口的能力提供了结构解释。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd8f/7320910/f0b7ec57d1b9/EMS85985-f007.jpg

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细菌鞭毛旋转器 MS 环中的对称性不匹配解释了分泌和旋转的结构协调性。

Symmetry mismatch in the MS-ring of the bacterial flagellar rotor explains the structural coordination of secretion and rotation.

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