逆转座基因组动态的细节为一个通用分类提供了理论依据:所有太平洋鲑鱼和鳟鱼(大麻哈鱼属)与大西洋鲑鱼和鳟鱼(鲑属)的明显分支。
Details of retropositional genome dynamics that provide a rationale for a generic division: the distinct branching of all the pacific salmon and trout (Oncorhynchus) from the Atlantic salmon and trout (Salmo).
作者信息
Murata S, Takasaki N, Saitoh M, Tachida H, Okada N
机构信息
Faculty of Bioscience and Biotechnology, Tokyo Institute of Technology, Yokohama, Japan.
出版信息
Genetics. 1996 Mar;142(3):915-26. doi: 10.1093/genetics/142.3.915.
Abstract
Salmonid species contain numerous short interspersed repetitive elements (SINEs), known collectively as the HpaI family, in their genomes. Amplification and successive integration of individual SINEs into the genomes have occurred during the evolution of salmonids. We reported previously a strategy for determining the phylogenetic relationships among the Pacific salmonids in which these SINEs were used as temporal landmarks of evolution. Here, we provide evidence for extensive genomic rearrangements that involved retropositions and deletions in a common ancestor of all the Pacific salmon and trout. Our results provide genetic support for the recent phylogenetic reassignment of steelhead and related species from the genus Salmo to the genus Oncorhynchus. Several other informative loci identified by insertions of HpaI SINEs have been isolated, and previously proposed branching orders of the Oncorhynchus species have been confirmed. The authenticity of our phylogenetic tree is supported both by the isolation of more than two informative loci per branching point and by the congruence of all our data, which suggest that the period between successive speciations was sufficiently long for each SINE that had been amplified in the original species to become fixed in all individuals of that species.
摘要
鲑科物种的基因组中含有大量短散在重复元件(SINEs),统称为HpaI家族。在鲑科鱼类的进化过程中,单个SINEs发生了扩增并相继整合到基因组中。我们之前报道了一种确定太平洋鲑科鱼类系统发育关系的策略,其中这些SINEs被用作进化的时间标记。在这里,我们提供了广泛基因组重排的证据,这些重排涉及所有太平洋鲑鱼和鳟鱼共同祖先中的逆转座和缺失。我们的结果为近期将虹鳟及相关物种从鲑属重新归类到大麻哈鱼属提供了遗传学支持。通过HpaI SINEs插入鉴定出的其他几个信息位点已被分离出来,并且之前提出的大麻哈鱼属物种的分支顺序得到了证实。我们系统发育树的真实性得到了每个分支点分离出两个以上信息位点以及所有数据一致性的支持,这表明连续物种形成之间的时间足够长,使得在原始物种中扩增的每个SINE能够在该物种的所有个体中固定下来。
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