链球菌中的基因获得与基因丢失：是由栖息地驱动的吗？

Gene gain and gene loss in streptococcus: is it driven by habitat?

作者信息

Marri Pradeep Reddy, Hao Weilong, Golding G Brian

机构信息

Department of Biology, McMaster University, Hamilton, Ontario, Canada.

出版信息

Mol Biol Evol. 2006 Dec;23(12):2379-91. doi: 10.1093/molbev/msl115. Epub 2006 Sep 11.

DOI:10.1093/molbev/msl115

PMID:16966682

Abstract

Bacterial genomes can evolve either by gene gain, gene loss, mutating existing genes, and/or by duplication of existing genes. Recent studies have clearly demonstrated that the acquisition of new genes by lateral gene transfer (LGT) is a predominant force in bacterial evolution. To better understand the significance of LGT, we employed a comparative genomics approach to model species-specific and intraspecies gene insertions/deletions (ins/del among 12 sequenced streptococcal genomes using a maximum likelihood method. This study indicates that the rate of gene ins/del is higher on the external branches and varies dramatically for each species. We have analyzed here some of the experimentally characterized species-specific genes that have been acquired by LGT and conclude that at least a portion of these genes have a role in adaptation.

摘要

细菌基因组可以通过基因获得、基因丢失、现有基因的突变和/或现有基因的复制来进化。最近的研究清楚地表明，通过横向基因转移（LGT）获得新基因是细菌进化中的主要力量。为了更好地理解LGT的重要性，我们采用了一种比较基因组学方法，使用最大似然法对12个已测序的链球菌基因组中的物种特异性和种内基因插入/缺失（插入/缺失）进行建模。这项研究表明，基因插入/缺失的速率在外部分支上更高，并且每个物种之间差异很大。我们在这里分析了一些通过LGT获得的、经实验表征的物种特异性基因，并得出结论，这些基因中至少有一部分在适应性方面发挥作用。

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链球菌中的基因获得与基因丢失：是由栖息地驱动的吗？

Gene gain and gene loss in streptococcus: is it driven by habitat?

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