The complete mitochondrial genomes of four lagriine species (Coleoptera, Tenebrionidae) and phylogenetic relationships within Tenebrionidae

Abstract

It is common to use whole mitochondrial genomes to analyze phylogenetic relationships among insects. In this study, seven mitogenomes of Tenebrionidae are newly sequenced and annotated. Among them, four species (Cerogira janthinipennis (Fairmaire, 1886), Luprops yunnanus (Fairmaire, 1887), Anaedus unidentasus Wang & Ren, 2007, and Spinolyprops cribricollis Schawaller, 2012) represent the subfamily Lagriinae. In this subfamily, the mitogenomes of the tribes Goniaderini (A. unidentasus) and Lupropini (L. yunnanus and S. cribricollis) were first reported; they were found to be 15,328–16,437 bp in length and encode 37 typical mitochondrial genes (13 PCGs, 2 rRNAs, 22 tRNAs, and a single noncoding control region). Most protein-coding genes in these mitogenomes have typical ATN start codons and TAR or an incomplete stop codon T–. In these four lagriine species, F, L2, I, and N are the most frequently used amino acids. In the 13 PCGs, the gene atp8 (Pi = 0.978) was the most diverse nucleotide, while cox1 was the most conserved gene with the lowest value (Pi = 0.211). The phylogenetic results suggest that Pimelinae, Lagriinae, Blaptinae, Stenochiinae, and Alleculinae are monophyletic, Diaperinae is paraphyletic, and Tenebrioninae appears polyphyletic. In Lagriinae, the tribe Lupropini appears paraphyletic because Spinolyprops is clustered with Anaedus in Goniaderini. These mitogenomic data provide important molecular data for the phylogeny of Tenebrionidae.