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通过水平转移获得的一整套鞭毛基因与球形红杆菌中的内源性鞭毛系统共存。

A complete set of flagellar genes acquired by horizontal transfer coexists with the endogenous flagellar system in Rhodobacter sphaeroides.

作者信息

Poggio Sebastian, Abreu-Goodger Cei, Fabela Salvador, Osorio Aurora, Dreyfus Georges, Vinuesa Pablo, Camarena Laura

机构信息

Departamento de Biología Molecular y Biotecnología, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, Cd. Universitaria, México D.F. 04510, México.

出版信息

J Bacteriol. 2007 Apr;189(8):3208-16. doi: 10.1128/JB.01681-06. Epub 2007 Feb 9.

DOI:10.1128/JB.01681-06
PMID:17293429
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1855832/
Abstract

Bacteria swim in liquid environments by means of a complex rotating structure known as the flagellum. Approximately 40 proteins are required for the assembly and functionality of this structure. Rhodobacter sphaeroides has two flagellar systems. One of these systems has been shown to be functional and is required for the synthesis of the well-characterized single subpolar flagellum, while the other was found only after the genome sequence of this bacterium was completed. In this work we found that the second flagellar system of R. sphaeroides can be expressed and produces a functional flagellum. In many bacteria with two flagellar systems, one is required for swimming, while the other allows movement in denser environments by producing a large number of flagella over the entire cell surface. In contrast, the second flagellar system of R. sphaeroides produces polar flagella that are required for swimming. Expression of the second set of flagellar genes seems to be positively regulated under anaerobic growth conditions. Phylogenic analysis suggests that the flagellar system that was initially characterized was in fact acquired by horizontal transfer from a gamma-proteobacterium, while the second flagellar system contains the native genes. Interestingly, other alpha-proteobacteria closely related to R. sphaeroides have also acquired a set of flagellar genes similar to the set found in R. sphaeroides, suggesting that a common ancestor received this gene cluster.

摘要

细菌借助一种称为鞭毛的复杂旋转结构在液体环境中游动。该结构的组装和功能大约需要40种蛋白质。球形红杆菌有两个鞭毛系统。其中一个系统已被证明具有功能,是合成特征明确的单个亚极鞭毛所必需的,而另一个系统是在该细菌的基因组序列完成后才被发现的。在这项研究中,我们发现球形红杆菌的第二个鞭毛系统能够表达并产生有功能的鞭毛。在许多具有两个鞭毛系统的细菌中,一个用于游动,而另一个通过在整个细胞表面产生大量鞭毛来使细菌在密度更大的环境中移动。相比之下,球形红杆菌的第二个鞭毛系统产生游动所需的极鞭毛。第二组鞭毛基因的表达似乎在厌氧生长条件下受到正调控。系统发育分析表明,最初被鉴定的鞭毛系统实际上是通过水平转移从一种γ-变形菌获得的,而第二个鞭毛系统包含原生基因。有趣的是,与球形红杆菌密切相关的其他α-变形菌也获得了一组与球形红杆菌中发现的鞭毛基因相似的基因,这表明一个共同祖先获得了这个基因簇。

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