The zinc-ribbon domain of Helicobacter pylori HP0958: requirement for RpoN accumulation and possible roles of homologs in other bacteria.

Microbial Informatics and Experimentation Pub Date : 2011-08-23 DOI:10.1186/2042-5783-1-8

Lara E Pereira, Jennifer Tsang, Jan Mrázek, Timothy R Hoover

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引用次数: 6

Abstract

Background: Helicobacter pylori HP0958 protein (FlgZ) prevents the rapid turnover of RpoN (σ(54)), a transcription factor required for expression of several flagellar genes in H. pylori. FlgZ possesses a zinc-ribbon domain (DUF164) that contains two conserved CXXC motifs which coordinate a zinc ion and is thought to interact with nucleic acids or proteins. Two conserved cysteine residues in FlgZ (Cys-202 and Cys-223) were replaced with serine to assess their significance in FlgZ function. After confirming the importance of the CXXC motifs in the DUF164 domain of FlgZ, the distribution of DUF164 proteins and RpoN homologs in other bacteria was examined to determine if a correlation existed for the concurrence of the two proteins.

Results: Levels of RpoN were greatly reduced in H. pylori strains that expressed the FlgZ(C202S) or FlgZ(C223S) variants. The FlgZ(C202S) variant, but not the FlgZ(C223S) variant, accumulated at levels similar to the wild-type protein. DUF164 proteins are not universally distributed and appear to be absent in several major bacterial taxa, including Cyanobacteria as well as Alpha-, Beta- and Gammaproteobacteria. With the exception of the Actinobacteria, members of which generally lack RpoN, genes encoding DUF164 proteins and RpoN are frequently found in the same genome. Interestingly, many of the DUF164 proteins in Actinobacteria and Bacteroidetes lack most or even all of the conserved cysteine residues.

Conclusions: These findings suggest the importance of the zinc-ribbon domain of FlgZ in protecting RpoN from turnover. Since many bacteria that possess a DUF164 protein also contain RpoN, DUF164 proteins may have roles in RpoN protection or function in other bacteria.

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幽门螺杆菌HP0958的锌带结构域:对RpoN积累的需求及其在其他细菌中的可能作用

背景:幽门螺杆菌HP0958蛋白(FlgZ)可以阻止RpoN (σ(54))的快速周转，RpoN是幽门螺杆菌中几种鞭毛基因表达所需的转录因子。FlgZ具有一个锌带结构域(DUF164)，其中包含两个保守的CXXC基序，它们与锌离子协调，被认为与核酸或蛋白质相互作用。用丝氨酸取代FlgZ中两个保守的半胱氨酸残基(Cys-202和Cys-223)，以评估它们在FlgZ功能中的意义。在确认了CXXC基序在FlgZ的DUF164结构域中的重要性之后，我们又检测了DUF164蛋白和RpoN同源物在其他细菌中的分布，以确定这两种蛋白的共存是否存在相关性。结果:在表达FlgZ(C202S)或FlgZ(C223S)变体的幽门螺杆菌菌株中，RpoN水平显著降低。FlgZ(C202S)变体，而不是FlgZ(C223S)变体，积累的水平与野生型相似。DUF164蛋白并不是普遍分布的，在一些主要的细菌分类群中，包括蓝藻以及α -、β -和γ -变形菌中似乎没有DUF164蛋白。除了放线菌外，其成员通常缺乏RpoN，编码DUF164蛋白和RpoN的基因经常在同一基因组中被发现。有趣的是，放线菌门和拟杆菌门中的许多DUF164蛋白缺乏大部分甚至全部保守的半胱氨酸残基。结论:这些发现提示FlgZ的锌带结构域在保护RpoN免于周转中的重要性。由于许多具有DUF164蛋白的细菌也含有RpoN，因此DUF164蛋白可能在其他细菌中具有RpoN保护或功能。

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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Microbial Informatics and Experimentation

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