The Tcp plasmids of Clostridium perfringens require the resP gene to ensure stable inheritance

IF 1.8 4区 生物学 Q3 GENETICS & HEREDITY Plasmid Pub Date : 2020-01-01 DOI:10.1016/j.plasmid.2019.102461
Sarah Revitt-Mills , Carmen Lao , Marie Archambault , Dena Lyras , Julian I. Rood , Vicki Adams
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引用次数: 2

Abstract

Many of the disease-causing toxins of the pathogenic bacterium Clostridium perfringens are harboured on large, highly stable, conjugative plasmids. Previous work has established the requirement of a ParMRC-like partitioning system for plasmid maintenance, but little is known about other mechanisms used to ensure stable plasmid inheritance. The archetypal 47 kb Tcp plasmid, pCW3, encodes a gene, resP, whose putative product has sequence similarity to members of the serine recombinase family of site-specific recombinases. ResP is therefore likely to function to resolve plasmid multimers. Sequence analysis identified that resP genes are present on all C. perfringens plasmid families, suggesting a conserved function in these plasmids. To assess the requirement of resP for the stability of pCW3, deletion mutants were constructed. Deletion of resP from pCW3 resulted in a marked instability phenotype that was rescued upon complementation with the wild-type resP gene. Complementation with resP genes from two different C. perfringens plasmids demonstrated that only closely related resP genes can complement the mutation on pCW3. The function of ResP in vivo was examined using an Escherichia coli model system, which determined that two directly repeated res sites were required for the resolution of DNA and that ResP could resolve multimeric plasmid forms into monomeric units. Based on these findings we concluded that ResP could catalyse the resolution of plasmid multimers and was required for the maintenance of Tcp plasmids within C. perfringens. Overall, the results of this study have significant implications for our understanding of the maintenance of toxin-encoding plasmids within C. perfringens.

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产气荚膜梭菌的Tcp质粒需要有resP基因才能保证稳定的遗传
产气荚膜梭状芽胞杆菌的许多致病毒素都隐藏在大的、高度稳定的结合质粒上。先前的工作已经建立了类似parmrc的分裂系统对质粒维持的要求,但对用于确保质粒稳定遗传的其他机制知之甚少。原型47 kb Tcp质粒pCW3编码一个基因resP,其推测产物与位点特异性重组酶丝氨酸重组酶家族成员的序列相似。因此,ResP很可能起分解质粒多聚体的作用。序列分析发现,resP基因存在于所有产气荚膜荚膜菌质粒家族中,表明其在这些质粒中具有保守功能。为了评估resP对pCW3稳定性的要求,构建了缺失突变体。从pCW3中删除resP导致明显的不稳定表型,在与野生型resP基因互补后恢复。与来自两种不同产气荚膜荚膜菌质粒的resP基因的互补表明,只有密切相关的resP基因才能补充pCW3上的突变。利用大肠杆菌模型系统检测了ResP在体内的功能,该系统确定了DNA的分解需要两个直接重复的ResP位点,并且ResP可以将多聚质粒形式分解成单体。基于这些发现,我们认为ResP可以催化质粒多聚体的分解,并且是产气荚膜荚膜梭菌中Tcp质粒维持所必需的。总的来说,本研究结果对我们理解产气荚膜荚膜杆菌毒素编码质粒的维持具有重要意义。
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来源期刊
Plasmid
Plasmid 生物-遗传学
CiteScore
4.70
自引率
3.80%
发文量
21
审稿时长
53 days
期刊介绍: Plasmid publishes original research on genetic elements in all kingdoms of life with emphasis on maintenance, transmission and evolution of extrachromosomal elements. Objects of interest include plasmids, bacteriophages, mobile genetic elements, organelle DNA, and genomic and pathogenicity islands.
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