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基于pufL和pufM基因的光合紫色硫细菌的系统发育关系。

Phylogenetic relationship of phototrophic purple sulfur bacteria according to pufL and pufM genes.

作者信息

Tank Marcus, Thiel Vera, Imhoff Johannes F

机构信息

Leibniz Institute of Marine Sciences, IFM-GEOMAR, Kiel, Germany.

出版信息

Int Microbiol. 2009 Sep;12(3):175-85.

PMID:19784924
Abstract

The phylogenetic relationship of purple sulfur bacteria (PSB), of the order Chromatiales (class Gammaproteobacteria), was analyzed based on photosynthetic gene sequences of the pufL and pufM genes, and the results compared to phylogenetic trees and groupings of the 16S rRNA gene. Primers for pufL and pufM genes were constructed and successfully used to amplify the pufLM genes of members of 16 genera of Chromatiales. In total, pufLM and 16S rRNA gene sequences of 66 PSB strains were analyzed, including 29 type strains and 28 new isolates. The inferred phylogenetic trees of the pufLM and 16S rRNA genes reflected a largely similar phylogenetic development suggesting coevolution of these essential genes within the PSB. It is concluded that horizontal gene transfer of pufLM genes within the PSB is highly unlikely, in contrast to the situation in other groups of anoxygenic phototrophic bacteria belonging to Alpha- and Betaproteobacteria. The phylogeny of pufLM is therefore in good agreement with the current taxonomic classification of PSB. A phylogenetic classification of PSB to the genus level is possible based on their pufL or pufM sequences, and in many cases even to the species level. In addition, our data support a correlation between Puf protein structure and the type of internal photosynthetic membranes (vesicular, lamellar, or tubular).

摘要

基于紫色硫细菌(PSB,属于γ-变形菌纲的着色菌目)的光合基因pufL和pufM基因序列,分析了其系统发育关系,并将结果与16S rRNA基因的系统发育树和分类进行比较。构建了pufL和pufM基因的引物,并成功用于扩增着色菌目16个属成员的pufLM基因。总共分析了66株紫色硫细菌菌株的pufLM和16S rRNA基因序列,包括29株模式菌株和28株新分离株。推断的pufLM和16S rRNA基因系统发育树反映出大致相似的系统发育发展,表明这些必需基因在紫色硫细菌内共同进化。得出的结论是,与属于α-和β-变形菌纲的其他无氧光合细菌群体的情况相反,紫色硫细菌内pufLM基因的水平基因转移极不可能。因此,pufLM的系统发育与紫色硫细菌目前的分类学分类非常一致。基于其pufL或pufM序列,对紫色硫细菌进行属水平的系统发育分类是可能的,在许多情况下甚至可以到种水平。此外,我们的数据支持Puf蛋白结构与内部光合膜类型(泡状、层状或管状)之间的相关性。

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