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细胞表面展示的小菌毛黏附素以简单异源二聚体形式存在于白喉棒状杆菌中。

Cell surface display of minor pilin adhesins in the form of a simple heterodimeric assembly in Corynebacterium diphtheriae.

机构信息

Department of Microbiology & Molecular Genetics, University of Texas Health Science Center, Houston, TX, USA.

出版信息

Mol Microbiol. 2011 Mar;79(5):1236-47. doi: 10.1111/j.1365-2958.2010.07515.x. Epub 2011 Jan 5.

DOI:10.1111/j.1365-2958.2010.07515.x
PMID:21205008
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3043122/
Abstract

Pilus assembly in Gram-positive bacteria occurs by a two-step mechanism, whereby pilins are polymerized and then covalently anchored to the cell wall. In Corynebacterium diphtheriae, the pilin-specific sortase SrtA catalyses polymerization of the SpaA-type pilus, consisting of the shaft pilin SpaA, tip pilin SpaC and minor pilin SpaB. Cell wall anchoring of the SpaA polymers is triggered when SrtA incorporates SpaB into the pilus base via lysine-mediated transpeptidation; anchoring to the cell wall peptidoglycan is subsequently catalysed by the housekeeping sortase SrtF. Here we show that SpaB and SpaC formed a heterodimer independent of SpaA polymerization. SrtA was absolutely required for the formation of the SpaBC heterodimer, while SrtF facilitated the optimal cell wall anchoring of this heterodimer. Alanine substitution of the SpaB lysine residue K139 or truncation of the SpaB cell wall-sorting signal (CWSS) abolished assembly of the SpaBC heterodimer, hence underscoring SpaB function in transpeptidation and cell wall linkage. Importantly, sortase specificity for the cell wall-anchoring step was found to be dependent on the LAFTG motif within the SpaB CWSS. Thus, C. diphtheriae employs a common sortase-catalysed mechanism involving lysine-mediated transpeptidation to generate both adhesive pilus and simple heterodimeric structures on the bacterial the cell wall.

摘要

革兰氏阳性菌的菌毛组装通过两步机制进行,其中菌毛聚合,然后共价锚定到细胞壁上。在白喉棒状杆菌中,菌毛特异性的天冬酰胺酰基转移酶 SrtA 催化 SpaA 型菌毛的聚合,该菌毛由轴丝菌毛 SpaA、尖端菌毛 SpaC 和次要菌毛 SpaB 组成。当 SrtA 通过赖氨酸介导的转肽作用将 SpaB 纳入菌毛基部时,触发 SpaA 聚合物的细胞壁锚定;随后由管家天冬酰胺酰基转移酶 SrtF 催化细胞壁肽聚糖的锚定。在这里,我们表明 SpaB 和 SpaC 形成了一种与 SpaA 聚合无关的异二聚体。SrtA 绝对需要 SpaBC 异二聚体的形成,而 SrtF 促进了这种异二聚体的最佳细胞壁锚定。SpaB 赖氨酸残基 K139 的丙氨酸取代或 SpaB 细胞壁分拣信号 (CWSS) 的截断消除了 SpaBC 异二聚体的组装,从而强调了 SpaB 在转肽和细胞壁连接中的作用。重要的是,发现天冬酰胺酰基转移酶对细胞壁锚定步骤的特异性取决于 SpaB CWSS 内的 LAFTG 基序。因此,白喉棒状杆菌采用了一种常见的天冬酰胺酰基转移酶催化机制,涉及赖氨酸介导的转肽作用,以在细菌细胞壁上产生粘性菌毛和简单异二聚体结构。

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