Mitogenome architecture supports the non-monophyly of the cosmopolitan parasitoid wasp subfamily Doryctinae (Hymenoptera: Braconidae) recovered by nuclear and mitochondrial phylogenomics.

IF 1.8 2区生物学 Q3 EVOLUTIONARY BIOLOGY

Invertebrate Systematics Pub Date : 2024-05-01 DOI:10.1071/IS24029

Rubén Castañeda-Osorio, Sergey A Belokobylskij, Jovana M Jasso-Martínez, Ernesto Samacá-Sáenz, Robert R Kula, Alejandro Zaldívar-Riverón

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引用次数: 0

Abstract

Mitochondrial DNA gene organisation is an important source of phylogenetic information for various metazoan taxa at different evolutionary timescales, though this has not been broadly tested for all insect groups nor within a phylogenetic context. The cosmopolitan subfamily Doryctinae is a highly diverse group of braconid wasps mainly represented by ectoparasitoids of xylophagous beetle larvae. Previous molecular studies based on Sanger and genome-wide (ultraconserved elements, UCE; and mitochondrial genomes) sequence data have recovered a non-monophyletic Doryctinae, though the relationships involved have always been weakly supported. We characterised doryctine mitogenomes and conducted separate phylogenetic analyses based on mitogenome and UCE sequence data of ~100 representative doryctine genera to assess the monophyly and higher-level classification of the subfamily. We identified rearrangements of mitochondrial transfer RNAs (tRNAs) that support a non-monophyletic Doryctinae consisting of two separate non-related clades with strong geographic structure ('New World' and 'Old World' clades). This geographic structure was also consistently supported by the phylogenetic analyses preformed with mitogenome and UCE sequence data. These results highlight the utility of the mitogenome gene rearrangements as a potential source of phylogenetic information at different evolutionary timescales.

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有丝分裂基因组结构支持通过核和线粒体系统发生组学发现的世界性寄生蜂亚科Doryctinae（膜翅目：腕蜂科）的非单系性。

线粒体 DNA 基因组织是不同进化时间尺度下各种变态类群系统发育信息的重要来源，但尚未对所有昆虫类群或在系统发育背景下进行广泛测试。世界性的 Doryctinae 亚科是一个种类繁多的喙蜂类群，主要以食木质甲虫幼虫的外寄生蜂为代表。以前基于 Sanger 和全基因组（超保守元素 UCE 和线粒体基因组）序列数据的分子研究发现了一个非单系的 Doryctinae，尽管其中涉及的关系一直得到较弱的支持。我们研究了多刺龙有丝分裂基因组的特征，并根据约 100 个代表性多刺龙属的有丝分裂基因组和 UCE 序列数据分别进行了系统发生学分析，以评估该亚科的单系性和更高层次的分类。我们发现线粒体转运核糖核酸（tRNAs）的重排支持由两个独立的非相关支系（"新世界 "支系和 "旧世界 "支系）组成的非单系的多刺龙科。利用有丝分裂基因组和 UCE 序列数据进行的系统发生分析也一致支持这种地理结构。这些结果凸显了有丝分裂基因组基因重排作为不同进化时间尺度上系统发育信息潜在来源的实用性。

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

Invertebrate Systematics 生物-动物学

CiteScore

4.30

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： Invertebrate Systematics (formerly known as Invertebrate Taxonomy) is an international journal publishing original and significant contributions on the systematics, phylogeny and biogeography of all invertebrate taxa. Articles in the journal provide comprehensive treatments of clearly defined taxonomic groups, often emphasising their biodiversity patterns and/or biological aspects. The journal also includes contributions on the systematics of selected species that are of particular conservation, economic, medical or veterinary importance. Invertebrate Systematics is a vital resource globally for scientists, students, conservation biologists, environmental consultants and government policy advisors who are interested in terrestrial, freshwater and marine systems. Invertebrate Systematics is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.