Mitogenomes provide insights into the phylogeny and evolution of brittle stars (Echinodermata, Ophiuroidea)

IF 2.3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY Zoologica Scripta Pub Date : 2022-11-10 DOI:10.1111/zsc.12576
Shao'e Sun, N. Xiao, Z. Sha
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引用次数: 2

Abstract

Ophiuroidea is the most speciose of all classes of Echinoderma. It is an important component in benthic ecosystems, occurring in almost all ecological niches of modern seas. To date, the phylogeny and complete evolutionary history of the ophiuroids have not yet been fully resolved. In this study, we sequenced the complete mitochondrial genomes (mitogenomes) of Ophiothrix (Ophiothrix) exigua and two deep‐sea species Histampica sp. CS049 and Ophioplinthaca sp. M5261. These two deep‐sea ophiuroids displayed reversed strand‐compositional bias and rearranged gene orders. Thirteen distinct patterns of mitochondrial gene order among ophiuroid mitogenomes were detected, with two gene order newly found in Ophiuroidea. Our data supported the gene order found in all sampled Ophiuridae as the most likely ancestral order of all Ophiuroidea. To improve phylogenetic accuracy based on nucleotide differences, two different criteria were used for the analyses: (i) nucleotide sequence from all codon positions (PCG123); (ii) the NTE method (“Neutral Transitions Excluded”) for ameliorating the misleading effects of a reverse strand bias in the data. The two methods confirmed the polyphyly of the orders Ophiacanthida and Amphilepidia. At family and genus level, Ophiuridae, Ophionotus and Ophioplinthus were not monophyletic. The most notable exception was that the NTE phylogeny showed low variation of branch length. NTE dataset generated younger age for most lower‐level nodes than that from PCG123 dataset. All analyses suggested that the ophiuroids radiation occurred around the Permian–Triassic mass extinction event, and the divergence time of the deep‐sea lineages was during the Cretaceous.
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有丝分裂基因组为蛇尾动物的系统发育和进化提供了新的思路
蛇尾目是所有种类的棘皮动物中种类最多的。它是海底生态系统的重要组成部分,几乎出现在现代海洋的所有生态位中。到目前为止,蛇尾类的系统发育和完整的进化史尚未完全解决。在本研究中,我们对蛇床子(Ophiothrix)exigua和两个深海物种Histampica sp.CS049和Ophiotlinthaca sp.M5261的完整线粒体基因组(线粒体基因组)进行了测序。这两个深海类人猿显示出反向的链组成偏差和重排的基因顺序。在蛇夫座有丝分裂基因组中检测到13种不同的线粒体基因顺序模式,其中两种基因顺序是在蛇夫亚新发现的。我们的数据支持在所有采样的蛇夫座科中发现的基因顺序,认为它最有可能是所有蛇夫座的祖先顺序。为了提高基于核苷酸差异的系统发育准确性,使用了两种不同的标准进行分析:(i)来自所有密码子位置的核苷酸序列(PCG123);(ii)NTE方法(“排除中性过渡”),用于改善数据中反向链偏差的误导效应。这两种方法证实了蛇床目和两栖目的多聚性。在科属水平上,蛇夫科、蛇夫座和蛇夫座不是单系。最显著的例外是NTE系统发育显示出分枝长度的低变异。NTE数据集为大多数低级别节点生成的年龄比PCG123数据集生成的年龄年轻。所有分析表明,蛇神体辐射发生在二叠纪-三叠纪大灭绝事件前后,深海谱系的分化时间在白垩纪。
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来源期刊
Zoologica Scripta
Zoologica Scripta 生物-动物学
CiteScore
5.60
自引率
0.00%
发文量
52
审稿时长
>12 weeks
期刊介绍: Zoologica Scripta publishes papers in animal systematics and phylogeny, i.e. studies of evolutionary relationships among taxa, and the origin and evolution of biological diversity. Papers can also deal with ecological interactions and geographic distributions (phylogeography) if the results are placed in a wider phylogenetic/systematic/evolutionary context. Zoologica Scripta encourages papers on the development of methods for all aspects of phylogenetic inference and biological nomenclature/classification. Articles published in Zoologica Scripta must be original and present either theoretical or empirical studies of interest to a broad audience in systematics and phylogeny. Purely taxonomic papers, like species descriptions without being placed in a wider systematic/phylogenetic context, will not be considered.
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