Lefébure Tristan, Stanhope Michael J
Department of Population Medicine and Diagnostic Sciences, College of Veterinary Medicine, Cornell University, Ithaca, New York 14853, USA.
Genome Res. 2009 Jul;19(7):1224-32. doi: 10.1101/gr.089250.108. Epub 2009 Mar 20.
An open question in bacterial genomics is the role that adaptive evolution of the core genome plays in diversification and adaptation of bacterial species, and how this might differ between groups of bacteria occupying different environmental circumstances. The genus Campylobacter encompasses several important human and animal enteric pathogens, with genome sequence data available for eight species. We estimate the Campylobacter core genome at 647 genes, with 92.5% of the nonrecombinant core genome loci under positive selection in at least one lineage and the same gene frequently under positive selection in multiple lineages. Tests are provided that reject recombination, saturation, and variation in codon usage bias as factors contributing to this high level of selection. We suggest this genome-wide adaptive evolution may result from a Red Queen macroevolutionary dynamic, in which species are involved in competition for resources within the mammalian and/or vertebrate gastrointestinal tract. Much reduced levels of positive selection evident in Streptococcus, as reported by the authors in an earlier work, may be a consequence of these taxa inhabiting less species-rich habitats, and more unique niches. Despite many common loci under positive selection in multiple Campylobacter lineages, we found no evidence for molecular adaptive convergence at the level of the same or adjacent codons, or even protein domains. Taken collectively, these results describe the diversification of a bacterial genus that involves pervasive natural selection pressure across virtually the entire genome, with this adaptation occurring in different ways in different lineages, despite the species tendency toward a common gastrointestinal habitat.
细菌基因组学中的一个悬而未决的问题是,核心基因组的适应性进化在细菌物种的多样化和适应性中所起的作用,以及在占据不同环境条件的细菌群体之间这一作用可能存在怎样的差异。弯曲杆菌属包含几种重要的人类和动物肠道病原体,已有8个物种的基因组序列数据。我们估计弯曲杆菌的核心基因组有647个基因,在至少一个谱系中,92.5%的非重组核心基因组位点处于正选择之下,并且同一基因在多个谱系中经常处于正选择之下。我们提供了一些测试,排除了重组、饱和度和密码子使用偏好变化作为导致这种高水平选择的因素。我们认为这种全基因组的适应性进化可能源于一种红皇后宏观进化动态,即物种在哺乳动物和/或脊椎动物胃肠道内参与资源竞争。正如作者在早期工作中所报道的,链球菌中明显较低水平的正选择可能是这些分类群栖息在物种丰富度较低的栖息地以及更独特生态位的结果。尽管在多个弯曲杆菌谱系中有许多共同的位点处于正选择之下,但我们没有发现同一或相邻密码子甚至蛋白质结构域水平上分子适应性趋同的证据。总体而言,这些结果描述了一个细菌属的多样化,该多样化涉及几乎整个基因组普遍存在的自然选择压力,尽管这些物种倾向于共同的胃肠道栖息地,但这种适应性在不同谱系中以不同方式发生。