The de novo genome of the Black-necked Snakefly (Venustoraphidia nigricollis Albarda, 1891): A resource to study the evolution of living fossils.

IF 3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY Journal of Heredity Pub Date : 2024-02-03 DOI:10.1093/jhered/esad074
Magnus Wolf, Carola Greve, Tilman Schell, Axel Janke, Thomas Schmitt, Steffen U Pauls, Horst Aspöck, Ulrike Aspöck
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Abstract

Snakeflies (Raphidioptera) are the smallest order of holometabolous insects that have kept their distinct and name-giving appearance since the Mesozoic, probably since the Jurassic, and possibly even since their emergence in the Carboniferous, more than 300 million years ago. Despite their interesting nature and numerous publications on their morphology, taxonomy, systematics, and biogeography, snakeflies have never received much attention from the general public, and only a few studies were devoted to their molecular biology. Due to this lack of molecular data, it is therefore unknown, if the conserved morphological nature of these living fossils translates to conserved genomic structures. Here, we present the first genome of the species and of the entire order of Raphidioptera. The final genome assembly has a total length of 669 Mbp and reached a high continuity with an N50 of 5.07 Mbp. Further quality controls also indicate a high completeness and no meaningful contamination. The newly generated data was used in a large-scaled phylogenetic analysis of snakeflies using shared orthologous sequences. Quartet score and gene concordance analyses revealed high amounts of conflicting signals within this group that might speak for substantial incomplete lineage sorting and introgression after their presumed re-radiation after the asteroid impact 66 million years ago. Overall, this reference genome will be a door-opening dataset for many future research applications, and we demonstrated its utility in a phylogenetic analysis that provides new insights into the evolution of this group of living fossils.

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黑颈蛇蝇(Venustoraphidia nigricollis Albarda, 1891)的新基因组:研究活化石进化的资源。
蛇蝇(蛇翅目)是最小的全变形昆虫目,自中生代以来,可能自侏罗纪以来,甚至可能自3亿多年前石炭纪出现以来,它们一直保持着独特的命名外观。尽管蛇蝇具有有趣的性质,并且在形态学、分类学、系统学和生物地理学方面发表了大量文章,但它们从未受到公众的太多关注,只有少数研究致力于它们的分子生物学。由于缺乏分子数据,因此不知道这些活化石的保守形态性质是否转化为保守的基因组结构。在这里,我们提出了该物种的第一个基因组和整个目的Raphidioptera。最终的基因组组装全长669 Mbp, N50为5.07 Mbp,具有较高的连续性。进一步的质量控制也表明高度的完整性和没有明显的污染。新生成的数据被用于使用共享同源序列的蛇蝇的大规模系统发育分析。四重奏评分和基因一致性分析揭示了这个群体中大量相互矛盾的信号,这可能说明了在6600万年前小行星撞击后他们被推测为再辐射后,大量的不完整的谱系分类和渗入。总的来说,这个参考基因组将为许多未来的研究应用打开一扇门,我们证明了它在系统发育分析中的实用性,为这组活化石的进化提供了新的见解。
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来源期刊
Journal of Heredity
Journal of Heredity 生物-遗传学
CiteScore
5.20
自引率
6.50%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Over the last 100 years, the Journal of Heredity has established and maintained a tradition of scholarly excellence in the publication of genetics research. Virtually every major figure in the field has contributed to the journal. Established in 1903, Journal of Heredity covers organismal genetics across a wide range of disciplines and taxa. Articles include such rapidly advancing fields as conservation genetics of endangered species, population structure and phylogeography, molecular evolution and speciation, molecular genetics of disease resistance in plants and animals, genetic biodiversity and relevant computer programs.
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