agrA中的一个无义突变导致了agr表达缺陷以及金黄色葡萄球菌8325 - 4 traP::kan的无毒力。

A nonsense mutation in agrA accounts for the defect in agr expression and the avirulence of Staphylococcus aureus 8325-4 traP::kan.

作者信息

Adhikari Rajan P, Arvidson Staffan, Novick Richard P

机构信息

Program in Molecular Pathogenesis, Skirball Institute, New York University Medical Center, New York, NY 10016, USA.

出版信息

Infect Immun. 2007 Sep;75(9):4534-40. doi: 10.1128/IAI.00679-07. Epub 2007 Jul 2.

DOI:10.1128/IAI.00679-07

PMID:17606604

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1951176/

Abstract

TraP is a triply phosphorylated staphylococcal protein that has been hypothesized to be the mediator of a second Staphylococcus aureus quorum-sensing system, "SQS1," that controls expression of the agr system and therefore is essential for the organism's virulence. This hypothesis was based on the loss of agr expression and virulence by a traP mutant of strain 8325-4 and was supported by full complementation of both phenotypic defects by the cloned traP gene in strain NB8 (Y. Gov, I. Borovok, M. Korem, V. K. Singh, R. K. Jayaswal, B. J. Wilkinson, S. M. Rich, and N. Balaban, J. Biol. Chem. 279:14665-14672, 2004), in which the wild-type traP gene was expressed in trans in the 8325-4 traP mutant. We initiated a study of the mechanism by which TraP activates agr and found that the traP mutant strain used for this and other recently published studies has a second mutation, an adventitious stop codon in the middle of agrA, the agr response regulator. The traP mutation, once separated from the agrA defect by outcrossing, had no effect on agr expression or virulence, indicating that the agrA defect accounts fully for the lack of agr expression and for the loss of virulence attributed to the traP mutation. In addition, DNA sequencing showed that the agrA gene in strain NB8 (Gov et al., J. Biol. Chem., 2004), in contrast to that in the agr-defective 8325-4 traP mutant strain, had the wild-type sequence; further, the traP mutation in that strain, when outcrossed, also had no effect on agr expression.

摘要

TraP是一种三重磷酸化的葡萄球菌蛋白，据推测它是金黄色葡萄球菌第二个群体感应系统“SQS1”的介质，该系统控制agr系统的表达，因此对该生物体的毒力至关重要。这一假设基于8325 - 4菌株的traP突变体中agr表达和毒力的丧失，并得到了NB8菌株中克隆的traP基因对这两种表型缺陷的完全互补的支持（Y. Gov、I. Borovok、M. Korem、V. K. Singh、R. K. Jayaswal、B. J. Wilkinson、S. M. Rich和N. Balaban，《生物化学杂志》279:14665 - 14672，2004年），其中野生型traP基因在8325 - 4 traP突变体中反式表达。我们启动了一项关于TraP激活agr机制的研究，发现用于本研究及其他最近发表研究的traP突变菌株有第二个突变，即在agr反应调节因子agrA中间出现一个偶然的终止密码子。一旦通过杂交将traP突变与agrA缺陷分离，traP突变对agr表达或毒力没有影响，这表明agrA缺陷完全解释了agr表达的缺乏以及归因于traP突变的毒力丧失。此外，DNA测序显示，与agr缺陷的8325 - 4 traP突变菌株相比，NB8菌株（Gov等人，《生物化学杂志》，2004年）中的agrA基因具有野生型序列；此外，该菌株中的traP突变在杂交时对agr表达也没有影响。

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