基于扩充的基因组和转录组数据的半翅目昆虫系统发育和进化。

IF 4.4 1区 生物学 Q1 BIOLOGY BMC Biology Pub Date : 2024-09-02 DOI:10.1186/s12915-024-01991-1
Nan Song, Miao-Miao Wang, Wei-Chao Huang, Zhi-Yi Wu, Renfu Shao, Xin-Ming Yin
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引用次数: 0

摘要

背景:半翅目是昆虫中第五个物种丰富的目,也是物种最丰富的半翅目昆虫,包括许多具有农业或医学意义的昆虫物种。尽管在推断半翅目昆虫系统发育方面做了大量工作并取得了最新进展,但超科之间的一些高层次关系仍存在争议:结果:我们测序了 15 个超科 64 种半翅目昆虫的基因组以及另外两种鳞翅目昆虫的转录组,并将它们与现有的基因组和转录组数据相结合,对半翅目昆虫进行了全面的系统发育分析。我们的数据集包括半翅目 27 个超科 315 个物种的平均 1625 个核位点。我们的分析支持蝉形目和栉形目为姊妹群,膜翅目通常被定位为蝉形目+栉形目姊妹群。在大多数分析中,Aleyrodoidea 被认为是所有其他 Sternorrhyncha 的姊妹群。Coccoidea 和 Aphidoidea + Phylloxeroidea 之间的姊妹群关系得到了支持。这些关系在不同数据集的四簇似然图谱分析中得到了进一步的支持。我们的祖先状态重建表明,植食是半翅目整体的主要取食策略。然而,捕食可能代表了杂翅目的祖先状态,有几个植食性品系是从捕食性祖先进化而来的。某些品系,如 Lygaeoidea,经历了从植食到捕食的逆转过渡。根据我们的分化时间估计,半翅目动物的分化发生在距今6000万年到1.5亿年之间:通过扩大系统发生组分类群的取样范围,我们澄清了蝉形目下的超科关系。我们的系统发育分析支持蝉形目超科和ercopoidea超科之间的姊妹群关系,以及作为蝉形目+ercopoidea的姊妹超科的膜蝉形目超科。我们对分歧时间的估计支持了半翅目动物的多样化与白垩纪时期被子植物的进化成功和适应性辐射密切相关。
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Phylogeny and evolution of hemipteran insects based on expanded genomic and transcriptomic data.

Background: Hemiptera is the fifth species-rich order of insects and the most species-rich order of hemimetabolous insects, including numerous insect species that are of agricultural or medical significance. Despite much effort and recent advance in inferring the Hemiptera phylogeny, some high-level relationships among superfamilies remain controversial.

Results: We sequenced the genomes of 64 hemipteran species from 15 superfamilies and the transcriptomes of two additional scale insect species, integrating them with existing genomic and transcriptomic data to conduct a comprehensive phylogenetic analysis of Hemiptera. Our datasets comprise an average of 1625 nuclear loci of 315 species across 27 superfamilies of Hemiptera. Our analyses supported Cicadoidea and Cercopoidea as sister groups, with Membracoidea typically positioned as the sister to Cicadoidea + Cercopoidea. In most analyses, Aleyrodoidea was recovered as the sister group of all other Sternorrhyncha. A sister-group relationship was supported between Coccoidea and Aphidoidea + Phylloxeroidea. These relationships were further supported by four-cluster likelihood mapping analyses across diverse datasets. Our ancestral state reconstruction indicates phytophagy as the primary feeding strategy for Hemiptera as a whole. However, predation likely represents an ancestral state for Heteroptera, with several phytophagous lineages having evolved from predatory ancestors. Certain lineages, like Lygaeoidea, have undergone a reversal transition from phytophagy to predation. Our divergence time estimation placed the diversification of hemipterans to be between 60 and 150 million years ago.

Conclusions: By expanding phylogenomic taxon sampling, we clarified the superfamily relationships within the infraorder Cicadomorpha. Our phylogenetic analyses supported the sister-group relationship between the superfamilies Cicadoidea and Cercopoidea, and the superfamily Membracoidea as the sister to Cicadoidea + Cercopoidea. Our divergence time estimation supported the close association of hemipteran diversification with the evolutionary success and adaptive radiation of angiosperms during the Cretaceous period.

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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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