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RNA伴侣蛋白Hfq参与脑膜炎奈瑟菌的应激反应和毒力,是蛋白质表达的多效性调节因子。

The RNA chaperone Hfq is involved in stress response and virulence in Neisseria meningitidis and is a pleiotropic regulator of protein expression.

作者信息

Fantappiè Laura, Metruccio Matteo M E, Seib Kate L, Oriente Francesca, Cartocci Elena, Ferlicca Francesca, Giuliani Marzia M, Scarlato Vincenzo, Delany Isabel

机构信息

Novartis Vaccines, Via Fiorentina 1, 53100 Siena, Italy.

出版信息

Infect Immun. 2009 May;77(5):1842-53. doi: 10.1128/IAI.01216-08. Epub 2009 Feb 17.

DOI:10.1128/IAI.01216-08
PMID:19223479
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2681778/
Abstract

The well-conserved protein Hfq has emerged as the key modulator of riboregulation in bacteria. This protein is thought to function as an RNA chaperone and to facilitate base pairing between small regulatory RNA (sRNA) and mRNA targets, and many sRNAs are dependent on the Hfq protein for their regulatory functions. To address the possible role of Hfq in riboregulated circuits in Neisseria meningitidis, we generated an Hfq mutant of the MC58 strain, and the knockout mutant has pleiotropic phenotypes; it has a general growth phenotype in vitro in culture media, and it is sensitive to a wide range of stresses, including those that it may encounter in the host. Furthermore, the expression profile of a vast number of proteins is clearly altered in the mutant, and we have identified 27 proteins by proteomics. All of the phenotypes tested to date are also restored by complementation of Hfq expression in the mutant strain. Importantly, in ex vivo and in vivo models of infection the Hfq mutant is attenuated. These data indicate that Hfq plays a key role in stress response and virulence, and we propose a major role for Hfq in regulation of gene expression. Moreover, this study suggests that in meningococcus there is a large Hfq-mediated sRNA network which so far is largely unexplored.

摘要

高度保守的蛋白质Hfq已成为细菌中核糖调节的关键调节因子。该蛋白质被认为起着RNA伴侣的作用,并促进小调节RNA(sRNA)与mRNA靶标之间的碱基配对,许多sRNA的调节功能依赖于Hfq蛋白。为了研究Hfq在脑膜炎奈瑟菌核糖调节回路中的可能作用,我们构建了MC58菌株的Hfq突变体,该敲除突变体具有多效性表型;它在体外培养基中具有一般生长表型,并且对多种应激敏感,包括它在宿主中可能遇到的应激。此外,该突变体中大量蛋白质的表达谱明显改变,我们通过蛋白质组学鉴定了27种蛋白质。迄今为止测试的所有表型也通过在突变菌株中补充Hfq表达得以恢复。重要的是,在感染的体外和体内模型中,Hfq突变体的毒力减弱。这些数据表明Hfq在应激反应和毒力中起关键作用,并且我们提出Hfq在基因表达调节中起主要作用。此外,这项研究表明在脑膜炎球菌中存在一个由Hfq介导的大型sRNA网络,到目前为止该网络在很大程度上尚未被探索。

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