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@article{Creedy:2026:sysbio/syaf031,
author = {Creedy, TJ and Ding, Y and Gregory, KM and Swaby, L and Zhang, F and Vogler, AP},
doi = {sysbio/syaf031},
journal = {Systematic Biology},
pages = {445--467},
title = {Bioinformatics of combined nuclear and mitochondrial phylogenomics to define key nodes for the classification of Coleoptera},
url = {http://dx.doi.org/10.1093/sysbio/syaf031},
volume = {75},
year = {2026}
}
TY - JOUR
AB - Nuclear genome sequencing for phylogenetics is resource-intensive while mitochondrial genomes can be sequenced and analyzed with relative ease for building densely sampled phylogenetic trees of the most species-rich lineages of animals. Here, we develop a conceptual approach and bioinformatics workflow for combining nuclear single-copy orthologs with less informative but densely sampled mitochondrial genomes, for a detailed tree of Coleoptera (beetles). Basal relationships of Coleoptera were first inferred from>2,000 BUSCO loci mined from GenBank’s Short Read Archive for 119 exemplars of all major lineages under various substitution models and levels of matrix completion, to reveal universally supported nodes. Second, the corresponding mitogenomes were extracted and combined with an additional 373 species selected for broad taxonomic and biogeographic coverage, roughly in proportion to the known global species diversity of Coleoptera. Bioinformatic processing of mitogenomes was conducted with a novel pipeline for rapid, accurate annotation of protein-coding genes. Finally, phylogenetic trees from all 491 mitogenomes were generated under a backbone constraint from the universal basal nodes, which produced a well-supported tree of the major lineages at the family and superfamily level. Being genetically unlinked and showing unique character variation, mitogenomes provide a unique perspective of the phylogeny. Comparison with 3 recent nuclear phylogenomic studies resulted in the recognition of>80 nodes universally present across all analyses. These may now support the higher classification of Coleoptera and serve as backbone of further studies, as numerous full mitogenomes and mitochondrial DNA barcodes are added to an increasingly complete phylogenetic tree of this super-diverse insect order.
AU - Creedy,TJ
AU - Ding,Y
AU - Gregory,KM
AU - Swaby,L
AU - Zhang,F
AU - Vogler,AP
DO - sysbio/syaf031
EP - 467
PY - 2026///
SN - 1063-5157
SP - 445
TI - Bioinformatics of combined nuclear and mitochondrial phylogenomics to define key nodes for the classification of Coleoptera
T2 - Systematic Biology
UR - http://dx.doi.org/10.1093/sysbio/syaf031
UR - https://academic.oup.com/sysbio/advance-article/doi/10.1093/sysbio/syaf031/8342120
VL - 75
ER -
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