Bacterial genome encoded ParMs

Samson Ali, Adrian Koh, David Popp, Kotaro Tanaka, Yoshihito Kitaoku, Noriyuki Miyazaki, Kenji Iwasaki, Kaoru Mitsuoka, Robert C Robinson, Akihiro Narita
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Abstract

ParMs generally exist on low copy number plasmids where they contribute to plasmid segregation and stable inheritance. We carried out bioinformatics analysis, which indicated that ParM genes are not only confined to plasmids but are also occasionally found on genomes. Here we report the discovery and characterization of two chromosome encoded ParMs (cParMs) from the genomes of Desulfitobacterium hafniense (Dh-cParM1) and Clostridium botulinum (Cb-cParM). Both cParMs form filaments, exhibit nucleotide hydrolysis, and possess characteristic ParM subunit structures. Dh-cParM1 forms single and tightly coupled double filaments and is highly conserved on the chromosomes of five of six Desulfitobacterium species. Interestingly, these bacteria have not been reported to harbour plasmids. Cb-cParM possesses unique properties. Its filaments were stable after nucleotide hydrolysis and Pi release, and its ParR, (Cb-cParR) did not affect the initial stage of Cb-cParM polymerization but displayed properties of a depolymerization factor for mature filaments. These results indicate functional, polymerizing ParMs can be encoded on genomes, suggesting that ParM roles may extend to other functions beyond plasmid segregation.
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细菌基因组编码的 ParMs
ParM 通常存在于低拷贝数质粒上,它们有助于质粒分离和稳定遗传。我们进行的生物信息学分析表明,ParM 基因不仅存在于质粒上,偶尔也会出现在基因组上。在此,我们报告了从脱硫杆菌(Dh-cParM1)和肉毒梭菌(Cb-cParM)的基因组中发现的两种染色体编码的 ParM(cParM),并对其进行了表征。这两种 cParM 都能形成丝状结构,表现出核苷酸水解,并具有特征性 ParM 亚基结构。Dh-cParM1 形成单丝和紧密耦合的双丝,在六种脱硫杆菌中的五种的染色体上高度保守。有趣的是,据报道这些细菌并不携带质粒。Cb-cParM 具有独特的性质。其细丝在核苷酸水解和 Pi 释放后保持稳定,其 ParR(Cb-cParR)不影响 Cb-cParM 聚合的初始阶段,但显示出成熟细丝的解聚因子特性。这些结果表明功能性聚合 ParM 可在基因组中编码,表明 ParM 的作用可能扩展到质粒分离以外的其他功能。
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