Molecular Phylogeny of Thoracotreme Crabs Including Nine Newly Determined Mitochondrial Genomes.

IF 0.9 4区 生物学 Q3 ZOOLOGY
Genki Kobayashi, Hajime Itoh, Nobuyoshi Nakajima
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引用次数: 1

Abstract

Mitochondrial genomes are used widely for the molecular phylogenetic analysis of animals. Although phylogenetic analyses based on the mitogenomes of brachyurans often yield well-resolved phylogenies, most interfamilial phylogenetic relationships in Thoracotremata remain unclear. We determined nine new mitogenomes of Thoracotremata, including mitogenomes of Camptandriidae (Deiratonotus japonicus), Dotillidae (Ilyoplax integra, Ilyoplax pusilla, and Tmethypocoelis choreutes), Macrophthalmidae (Ilyograpsus nodulosus), Pinnotheridae (Arcotheres sp. and Indopinnixa haematosticta), Plagusiidae (Guinusia dentipes), and Percnidae (Percnon planissimum). Interestingly, Percnon planissimum (Percnidae) was found to possess ≥ 19 repeated sequences in the control region. The gene orders of Il. nodulosus, Arcotheres sp., and In. haematosticta were revealed to be unique among thoracotreme crabs. Although the results of Bayesian and maximum likelihood (ML) phylogenetic analyses of three datasets were incongruent, highly supported clades (PP ≥ 0.99 or BS ≥ 99%) were not contradictory among the analyses. All analyses suggested the paraphyly of Grapsoidea and Ocypodoidea, corroborating the findings of previous studies based on molecular phylogenies of thoracotreme crabs. The phylogenetic positions of symbiotic thoracotreme crabs, Pinnotheridae and Cryptochiridae, were highly supported (Pinnotheridae + Ocypodidae and Cryptochiridae + Grapsidae, respectively) for the Bayesian analyses but not for the ML analyses. Analyses of more thoracotreme species' mitogenome sequences in additional studies will further strengthen the framework for thoracotreme evolution.

胸甲目蟹的分子系统发育,包括9个新发现的线粒体基因组。
线粒体基因组被广泛用于动物的分子系统发育分析。尽管基于短肢动物有丝分裂基因组的系统发育分析经常得到很好解决的系统发育问题,但胸肢动物的大多数家族间系统发育关系仍然不清楚。我们确定了9个新的胸吸螨有丝分裂基因组,包括Camptandriidae (Deiratonotus japonicus)、dotilliae (Ilyoplax integra、Ilyoplax pusilla和Tmethypocoelis choreutes)、Macrophthalmidae (Ilyograpsus nodulosus)、Pinnotheridae (arcops .和Indopinnixa haematosticta)、Plagusiidae (Guinusia dentipes)和Percnon planissimum)。有趣的是,在对照区发现Percnon planissimum (Percnon Percnidae)具有≥19个重复序列。结瘤菌属(ili . nodulosus)、arco有菌属(arco有菌属)和In.的基因序列。在胸甲目蟹中发现了独特的吸血虫。虽然三个数据集的贝叶斯和最大似然(ML)系统发育分析结果不一致,但高度支持的进化支(PP≥0.99或BS≥99%)在分析中并不矛盾。所有的分析结果都表明,胸甲蟹属于grapo总科和ocypodo总科,这证实了以往基于胸甲蟹分子系统发育的研究结果。共生胸甲蟹的系统发育位置(Pinnotheridae + cypodidae和Cryptochiridae + Grapsidae)在Bayesian分析中得到高度支持,但在ML分析中没有得到高度支持。对更多胸甲目物种有丝分裂基因组序列的进一步分析将进一步加强胸甲目进化的框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Zoological Science
Zoological Science 生物-动物学
CiteScore
1.70
自引率
11.10%
发文量
59
审稿时长
1 months
期刊介绍: Zoological Science is published by the Zoological Society of Japan and devoted to publication of original articles, reviews and editorials that cover the broad field of zoology. The journal was founded in 1984 as a result of the consolidation of Zoological Magazine (1888–1983) and Annotationes Zoologicae Japonenses (1897–1983), the former official journals of the Zoological Society of Japan. Each annual volume consists of six regular issues, one every two months.
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