Irimia Manuel, Maeso Ignacio, Penny David, Garcia-Fernàndez Jordi, Roy Scott William
Departament de Genètica, Universitat de Barcelona, Barcelona, Spain.
Mol Biol Evol. 2007 Aug;24(8):1604-7. doi: 10.1093/molbev/msm105. Epub 2007 May 24.
There is growing interest in the use of alternative, more slowly-evolving RGCs (rare genomic changes). Recently, Rogozin and coauthors (Rogozin et al. 2007) proposed a novel phylogenetic method employing rare amino acid changes, RGC-CAMs (rare genomic changes-conserved amino acids-multiple substitutions). They applied their method to 694 sets of eukaryotic orthologs in order to distinguish the relationship between nematodes, arthropods and deuterostomes. They concluded that such rare amino acid changes were consistent with the Coelomata hypothesis, which groups arthropods and deuterostomes to the exclusion of nematodes. Here we use newly available genomic sequences from Nematostella vectensis, a basal metazoan, and from Brugia malayi, an additional nematode. We show that the apparent support for Coelomata is likely to be the result of the rapid rate of evolution leading to Caenorhabditis nematodes. Including the additional species paints a very different picture, with 13 remaining characters consistent with Ecdysozoa versus only 1 consistent with Coelomata.
人们对使用替代性的、进化更为缓慢的稀有基因组变化(RGCs)的兴趣与日俱增。最近,罗戈津及其合著者(罗戈津等人,2007年)提出了一种采用稀有氨基酸变化的新型系统发育方法,即RGC-CAMs(稀有基因组变化-保守氨基酸-多重替换)。他们将该方法应用于694组真核直系同源基因,以区分线虫、节肢动物和后口动物之间的关系。他们得出结论,这种稀有氨基酸变化与体腔动物假说一致,该假说将节肢动物和后口动物归为一类,而将线虫排除在外。在这里,我们使用了来自基础后生动物星状海葵和另一种线虫马来丝虫的新获得的基因组序列。我们表明,对体腔动物的明显支持可能是导致秀丽隐杆线虫快速进化速率的结果。纳入这些额外的物种描绘出了一幅截然不同的图景,有13个剩余特征与蜕皮动物一致,而只有1个与体腔动物一致。
