补充纤毛虫有丝分裂基因组学:Solenogastres(软体动物,Aplacophora)线粒体基因组的比较特征。

IF 2.3 Q2 ECOLOGY
Franziska S Bergmeier, Andreas Brachmann, Kevin M Kocot, Francesca Leasi, Albert J Poustka, Michael Schrödl, Joseph L Sevigny, W Kelley Thomas, Christiane Todt, Katharina M Jörger
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引用次数: 0

摘要

背景:随着高通量测序和生物信息处理技术的发展,线粒体基因组在无脊椎动物不同支系的系统发育分析中越来越受欢迎。尽管现有的软体动物线粒体基因组数据集大量增加,但有一类有孔软体动物--Solenogastres(或Neomeniomorpha)--仍被忽视:在这里,我们展示了来自 Solenogastres 5 个科(Amphimeniidae, Gymnomeniidae, Proneomeniidae, Pruvotinidae, Simrothiellidae)的 6 个新的线粒体基因组,包括首个完整的有丝分裂基因组,从而代表了 4 个传统目中的 3 个。Solenogaster 有丝分裂基因组大小不一(从约 15,000 bp 到超过 17,000 bp 不等)。13 个蛋白质编码基因和 2 个 rRNA 基因的排列顺序在 3 个区块中保持不变,但 22 个 tRNA 基因的排列顺序有很大差异。根据系统进化分析和 Aculifera 类祖先线粒体基因组的重建,(1) 位于 atp8 和 atp6 之间的 trnD 基因,(2) 位于 atp6 和 nad5 之间的 trnT 和 P 基因,以及 (3) 位于 G 和 E 之间的 trnL1 基因,形成了 "MCYWQGL1E "的 tRNA 基因块,这三个基因块被认为是 Solenogastres 的同源物。多孔动物和一些海螺类群中存在的 tRNA 基因块 "KARNI "在 Solenogastres 中消失了:我们的研究表明,有丝分裂基因组适用于解决 Aculifera 之间和 Solenogastres 内部的系统发育关系,从而为研究这些支系的进化史提供了一种既省钱又省时的折中方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Complementing aculiferan mitogenomics: comparative characterization of mitochondrial genomes of Solenogastres (Mollusca, Aplacophora).

Background: With the advances in high-throughput sequencing and bioinformatic pipelines, mitochondrial genomes have become increasingly popular for phylogenetic analyses across different clades of invertebrates. Despite the vast rise in available mitogenomic datasets of molluscs, one class of aplacophoran molluscs - Solenogastres (or Neomeniomorpha) - is still neglected.

Results: Here, we present six new mitochondrial genomes from five families of Solenogastres (Amphimeniidae, Gymnomeniidae, Proneomeniidae, Pruvotinidae, Simrothiellidae), including the first complete mitogenomes, thereby now representing three of the four traditional orders. Solenogaster mitogenomes are variable in size (ranging from approximately 15,000 bp to over 17,000 bp). The gene order of the 13 protein coding genes and two rRNA genes is conserved in three blocks, but considerable variation occurs in the order of the 22 tRNA genes. Based on phylogenetic analyses and reconstruction of ancestral mitochondrial genomes of Aculifera, the position of (1) trnD gene between atp8 and atp6, (2) trnT and P genes between atp6 and nad5, and (3) trnL1 gene between G and E, resulting in a 'MCYWQGL1E'-block of tRNA genes, are all three considered synapomorphies for Solenogastres. The tRNA gene block 'KARNI' present in Polyplacophora and several conchiferan taxa is dissolved in Solenogastres.

Conclusion: Our study shows that mitogenomes are suitable to resolve the phylogenetic relationships among Aculifera and within Solenogastres, thus presenting a cost and time efficient compromise to approach evolutionary history in these clades.

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