Gene Arrangement and Sequence of Mitochondrial Genomes Yield Insights into the Phylogeny and Evolution of Bees and Sphecid Wasps (Hymenoptera: Apoidea)

Overview

Journal Mol Phylogenet Evol

Specialties Biology
Molecular Biology

Date 2018 Mar 7

PMID 29510236

Citations 28

Authors

Bo-Ying Zheng

Li-Jun Cao

Pu Tang

Kees van Achterberg

Ary A Hoffmann

Hua-Yan Chen

Xue-Xin Chen

Shu-Jun Wei

Affiliations

Soon will be listed here.

Abstract

The Apoidea represent a large and common superfamily of the Hymenoptera including the bees and sphecid wasps. A robust phylogenetic tree is essential to understanding the diversity, taxonomy and evolution of the Apoidea. In this study, features of apoid mitochondrial genomes were used to reconstruct phylogenetic relationships. Twelve apoid mitochondrial genomes were newly sequenced, representing six families and nine subfamilies. Gene rearrangement events have occurred in all apoid mitochondrial genomes sequenced to date. Sphecid wasps have both tRNA and protein-coding gene rearrangements in 5 of 8 species. In bees, the only rearranged genes are tRNAs; long-tongued bees (Apidae + Megachilidae) are characterized by movement of trnA to the trnI-trnQ-trnM tRNA cluster. Phylogenetic analyses of mitochondrial gene sequences support the known paraphyly of sphecid wasps, with bees nested within this clade. The Ampulicidae is sister to the remaining Apoidea. Crabronidae is paraphyletic, split into Crabronidae s.s. and Philanthidae, with the latter group a sister clade to bees. The monophyletic bees are either classified into two clades, long-tongued bees (Apidae + Megachilidae) and short-tongued bees (Andrenidae + Halictidae + Colletidae + Melitidae), or three groups with the Melitidae sister to the other bees. Our study showed that both gene sequences and arrangements provide information on the phylogeny of apoid families.

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