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Massive gene rearrangements of mitochondrial genomes and implications for the phylogeny of Trichoptera (Insecta)

Xinyu Ge, Lang Peng, Alfried P. Vogler, John C. Morse, Lianfang Yang, Changhai Sun, Beixin Wang

2022Systematic Entomology58 citationsDOI

Abstract

Abstract Mitochondrial genomes have been widely used for phylogenetic reconstruction and evolutionary analysis in various groups of Insecta. Gene rearrangements in the mitogenome can be informative characters for phylogenetic reconstruction and adaptive evolution. Trichoptera is one of the most important groups of aquatic insects. Prior to this study, complete mitogenomes from Trichoptera were restricted to eight families, resulting in a biased view of their mitogenome structure and evolution. Here, we assemble new mitogenomes for 66 species by high‐throughput sequencing. The mitogenomes of 19 families and 47 genera are documented for the first time. Combined with 16 previously published mitogenomes of Trichoptera, we find 14 kinds of gene rearrangement patterns novel for Trichoptera, including rearrangement of protein‐coding genes, tRNAs and control regions. Simultaneously, we provide evidence for the occurrence of tandem duplication and non‐random loss events in the mitogenomes of three families. Phylogenetic analyses show that Hydroptilidae was recovered as a sister group to Annulipalpia. The increased nucleotide substitution rate and adaptive evolution may have affected the mitochondrial gene rearrangements in Trichoptera. Our study offers new insights into the mechanisms and patterns of mitogenome rearrangements in Insecta at large and into the usefulness of mitogenomic gene order as a phylogenetic marker within Trichoptera.

Topics & Concepts

BiologyPhylogenetic treeMitochondrial DNAPhylogeneticsGene duplicationEvolutionary biologyGene rearrangementSister groupGenomeGeneGeneticsCladeGenomics and Phylogenetic StudiesGenetic diversity and population structurePhytoplasmas and Hemiptera pathogens