异尾次目寄居蟹总科线粒体基因组比较分析及系统发育研究

COMPARATIVE ANALYSIS ON COMPLETE MITOGENOME OF PAGUROIDEA (ANOMURA) AND ITS PHYLOGENETIC IMPLICATIONS

  • 摘要: 为厘清异尾次目(Anomura)寄居蟹总科(Paguroidea)分类及系统发育关系, 研究测定分析了活额寄居蟹科(Diogenidae)刺足真寄居蟹(Dardanus hessii)的线粒体基因组全序列, 并与其他已公布的16种寄居蟹总科线粒体基因组进行了比较分析。所有寄居蟹总科种类线粒体基因组均包含37个基因和1段长的非编码控制区。线粒体基因组相似性及共线性分析显示所有17种寄居蟹总科的线粒体基因组均经历了基因重排。重排可分为7种类型, 其中寄居蟹科(Paguridae)占4种, 活额寄居蟹科2种, 门螯寄居蟹科(Pylochelidae)1种。遗传距离、序列相似性及系统发育树均显示长腕寄居蟹(Pagurus filholi)与日本寄居蟹(Pagurus japonicus)为同一物种, 暗示其中至少有一个物种鉴定有误。系统发育树显示活额寄居蟹科物种并未聚为一支, 其中下齿细螯寄居蟹(Clibanarius infraspinatus)与整个陆寄居蟹科(Coenobitidae)聚为一支, 表明活额寄居蟹科为并系群。研究结果不仅有助于更好地理解寄居蟹总科的线粒体基因重排和系统发育, 并为线粒体基因重排作为系统发育分子标记的适用性提供了见解。

     

    Abstract: Taxonomy and phylogenetic relationships of Paguroidea (Anomura) have been a long controversial problem. The complete sequence of mitochondrial genomes (mitogenomes) can provide valuable information for resolving these contentious issues related to species identification and phylogeny. In this study, the complete mitogenome sequence of Dardanus hessii (Paguroidea: Diogenidae) was sequenced and analyzed for the first time. Additionally, it was compared with 16 other published Paguroidea mitogenomes. All the Paguridea mitogenomes contain 37 genes and one long non-coding control region. Analysis of mitochondrial genome similarity and collinearity analysis showed that all 17 Paguroidea mitogenomes had undergone gene rearrangement events. These rearrangements can be divided into seven types, including four types in Paguridae, two types in Diogenidae and one type in Pylochelidae. Genetic distance, sequence similarity and phylogenetic tree demonstrated that Pagurus japonicus and Pagurus filholi were the same species, implying that at least one of the species was misidentified. The phylogenetic tree also showed that not all Diogenidae species clustered within a single clade, as Clibanarius infraspinatus clustered together with Coenobitidae species, indicating that Diogenidae may be a paraphyletic group. These results contribute to a better understanding of mitochondrial gene rearrangement and phylogeny of Paguroidea, and provide insights into the applicability of mitochondrial gene rearrangement as a molecular marker for phylogenetic study.

     

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