Untangling deep‐sea corals systematics: Description of a new family, Stephanocyathidae (Anthozoa, Scleractinia), through a genomic approach

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Claudia Francesca Vaga, Isabela Galvao de Lossio e Seiblitz, Katia Cristina Cruz Capel, Andrea M. Quattrini, Jaroslaw Stolarski, Stephen D. Cairns, Marcelo Visentini Kitahara
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Abstract

Once considered the most speciose mostly azooxanthellate scleractinian group, the family Caryophylliidae is found to be highly polyphyletic based on molecular data and is undergoing a process of systematic revision. High‐throughput sequencing methods coupled with morphological analyses have facilitated revision of several scleractinian lineages, including the aforementioned family. In previous studies that relied on few mitochondrial and nuclear markers, the caryophylliid genera Stephanocyathus and Vaughanella were phylogenetically recovered in separate clades from the lineage that includes the type genus of the family, Caryophyllia, which is considered the ‘true’ Caryophylliidae. To help untangle the relationship among taxa of this family, here a new deep‐sea scleractinian family (Stephanocyathidae Vaga, Cairns & Kitahara fam. nov.) is proposed based on phylogenomic reconstructions coupled with molecular features, specifically gene order, of the complete mitochondrial genome. Evolutionary reconstructions were based on both mitochondrial and nuclear ultraconserved elements (UCEs) and exon loci data sets and confirmed the divergent position of the genera Stephanocyathus and Vaughanella. The new family shows a specific gene transposition in the mitochondrial genome, not present in the ‘true’ caryophylliid lineage, but instead already observed for the species Paraconotrochus antarcticus, recovered as sister taxon of the here proposed new family. Although its phylogenetic position is unknown, the genus Ericiocyathus is also added to the new family, based on macromorphological similarities. This study represents a step forward in our understanding of deep‐sea corals relationships and provide further information (e.g., mitochondrial gene order) that will aid in future efforts of assessing the systematic of caryophylliid lineages.
解开深海珊瑚的系统学:通过基因组学方法描述一个新科--Stephanocyathidae(Anthozoa, Scleractinia)。
Caryophylliidae科曾经被认为是最具标本性的无生贝类硬骨鱼类群,但根据分子数据发现,该科具有高度的多系性,目前正在进行系统性的修正。高通量测序方法与形态学分析相结合,促进了对包括上述科在内的多个硬骨鱼类系谱的修订。以前的研究依赖于少数线粒体和核标记物,在系统发育上,硬骨鱼纲的 Stephanocyathus 属和 Vaughanella 属与包括该科模式属 Caryophyllia 在内的系统被划分为不同的支系,而 Caryophyllia 属被认为是 "真正的 "硬骨鱼纲。为了帮助理清该科类群之间的关系,本文基于系统发生组重建和完整线粒体基因组的分子特征,特别是基因顺序,提出了一个新的深海硬骨鱼科(Stephanocyathidae Vaga, Cairns & Kitahara fam.进化重建基于线粒体和核超保原(UCEs)以及外显子位点数据集,证实了 Stephanocyathus 属和 Vaughanella 属的不同位置。该新科在线粒体基因组中显示出一种特殊的基因转位,这种基因转位在 "真正的 "加里叶藻系中并不存在,但在作为该新科姊妹类群的南极副栉水母(Paraconotrochus antarcticus)中已经观察到。尽管 Ericiocyathus 属的系统发育位置尚不清楚,但根据其大形态的相似性,也将其加入到新科中。这项研究标志着我们对深海珊瑚关系的认识向前迈进了一步,并提供了进一步的信息(如线粒体基因顺序),这将有助于今后评估aryophylliid 系的系统性。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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