Improved modelling of compositional heterogeneity reconciles phylogenomic conflicts among lacewings

IF 1.9 Q2 ENTOMOLOGY

Palaeoentomology Pub Date : 2023-02-28 DOI:10.11646/palaeoentomology.6.1.8

Chen-yang Cai, Erik Tihelka, Xingyue Liu, M. Engel

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引用次数: 2

Abstract

Exponential growth of large-scale data for Neuropterida, an iconic group of insects used in behavioural, ecological, and evolutionary studies, has greatly changed our understanding of the origin and evolution of lacewings and their allies. Recent phylogenomic studies of Neuropterida based on mitogenomes, anchored hybrid enrichment (AHE) data, and transcriptomes have yielded a well-resolved and largely congruent phylogeny. Some interfamilial relationships of lacewings, however, remain inconsistent among different phylogenomic studies. Here we re-analysed the genome-scale AHE and transcriptomic data for Neuropterida under the better fitting site-heterogeneous CAT-GTR+G model and recovered a strongly supported and congruent tree for the deeper phylogeny of Neuroptera. Integrating the smaller but more broadly sampled AHE and the larger but less-sampled transcriptomic data, we present a holistic phylogeny of Neuropterida from which to explore patterns of evolution across the clade. Our re-analyses of the largest available datasets of Neuropterida highlight the significance of modelling across-site compositional heterogeneity and model comparison in large-scale phylogenomic studies of insects.

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成分异质性的改进建模调和了草翅虫之间的系统发育冲突

Neuropterida是一组用于行为、生态和进化研究的标志性昆虫，其大规模数据的指数增长极大地改变了我们对草翼及其盟友的起源和进化的理解。最近基于有丝分裂基因组、锚定杂交富集（AHE）数据和转录组的神经蝶目系统发育学研究已经产生了一个很好的解决方案和基本一致的系统发育。然而，在不同的系统发育学研究中，草翅虫的一些家族间关系仍然不一致。在这里，我们在更适合的位点异质性CAT-GTR+G模型下重新分析了神经蝶目的基因组规模AHE和转录组数据，并为神经蝶目更深层次的系统发育恢复了一个强有力的支持和一致的树。整合较小但采样范围更广的AHE和较大但采样较少的转录组数据，我们提出了Neuropterida的整体系统发育，从中探索整个分支的进化模式。我们对Neuropterida最大可用数据集的重新分析强调了跨站点组成异质性建模和模型比较在昆虫大规模系统发育学研究中的重要性。

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

Palaeoentomology

自引率

26.10%

发文量