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肺炎支原体和生殖支原体 RuvB 同源物的功能特征。

Functional characterization of the RuvB homologs from Mycoplasma pneumoniae and Mycoplasma genitalium.

机构信息

Erasmus MC-Sophia Children's Hospital, Laboratory of Pediatrics, Pediatric Infectious Diseases and Immunity, 3000 CA Rotterdam, The Netherlands.

出版信息

J Bacteriol. 2011 Dec;193(23):6425-35. doi: 10.1128/JB.06003-11. Epub 2011 Sep 23.

Abstract

Homologous recombination between repeated DNA elements in the genomes of Mycoplasma species has been hypothesized to be a crucial causal factor in sequence variation of antigenic proteins at the bacterial surface. To investigate this notion, studies were initiated to identify and characterize the proteins that form part of the homologous DNA recombination machinery in Mycoplasma pneumoniae as well as Mycoplasma genitalium. Among the most likely participants of this machinery are homologs of the Holliday junction migration motor protein RuvB. In both M. pneumoniae and M. genitalium, genes have been identified that have the capacity to encode RuvB homologs (MPN536 and MG359, respectively). Here, the characteristics of the MPN536- and MG359-encoded proteins (the RuvB proteins from M. pneumoniae strain FH [RuvB(FH)] and M. genitalium [RuvB(Mge)], respectively) are described. Both RuvB(FH) and RuvB(Mge) were found to have ATPase activity and to bind DNA. In addition, both proteins displayed divalent cation- and ATP-dependent DNA helicase activity on partially double-stranded DNA substrates. The helicase activity of RuvB(Mge), however, was significantly lower than that of RuvB(FH). Interestingly, we found RuvB(FH) to be expressed exclusively by subtype 2 strains of M. pneumoniae. In strains belonging to the other major subtype (subtype 1), a version of the protein is expressed (the RuvB protein from M. pneumoniae strain M129 [RuvB(M129)]) that differs from RuvB(FH) in a single amino acid residue (at position 140). In contrast to RuvB(FH), RuvB(M129) displayed only marginal levels of DNA-unwinding activity. These results demonstrate that M. pneumoniae strains (as well as closely related Mycoplasma spp.) can differ significantly in the function of components of their DNA recombination and repair machinery.

摘要

在支原体物种的基因组中,重复 DNA 元件之间的同源重组被假设为细菌表面抗原蛋白序列变异的关键因果因素。为了研究这一观点,我们开始研究鉴定和表征肺炎支原体和生殖道支原体同源 DNA 重组机制的一部分的蛋白质。在这个机制中最有可能的参与者是霍利迪连接迁移运动蛋白 RuvB 的同源物。在肺炎支原体和生殖道支原体中,已经鉴定出具有编码 RuvB 同源物的能力的基因(分别为 MPN536 和 MG359)。在这里,描述了 MPN536 和 MG359 编码蛋白(肺炎支原体 FH 株的 RuvB(RuvB(FH))和生殖道支原体的 RuvB(RuvB(Mge))的特征)。发现 RuvB(FH)和 RuvB(Mge)都具有 ATP 酶活性并结合 DNA。此外,两种蛋白质都在部分双链 DNA 底物上显示出二价阳离子和 ATP 依赖性 DNA 解旋酶活性。然而,RuvB(Mge)的解旋酶活性明显低于 RuvB(FH)。有趣的是,我们发现 RuvB(FH)仅由肺炎支原体 2 型亚株表达。在属于其他主要亚型(1 型)的菌株中,表达了一种蛋白质(肺炎支原体 M129 株的 RuvB(RuvB(M129))),与 RuvB(FH)在一个氨基酸残基(位置 140)上有所不同。与 RuvB(FH)相比,RuvB(M129)仅显示出轻微的 DNA 解旋活性。这些结果表明,肺炎支原体菌株(以及密切相关的支原体属)在其 DNA 重组和修复机制的组成部分的功能上可能有很大差异。

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