July 7, 2019  |  

Large-scale mitogenomics enables insights into Schizophora (Diptera) radiation and population diversity.

Authors: Junqueira, Ana Carolina M and Azeredo-Espin, Ana Maria L and Paulo, Daniel F and Marinho, Marco Antonio T and Tomsho, Lynn P and Drautz-Moses, Daniela I and Purbojati, Rikky W and Ratan, Aakrosh and Schuster, Stephan C

True flies are insects of the order Diptera and encompass one of the most diverse groups of animals on Earth. Within dipterans, Schizophora represents a recent radiation of insects that was used as a model to develop a pipeline for generating complete mitogenomes using various sequencing platforms and strategies. 91 mitogenomes from 32 different species were sequenced and assembled with high fidelity, using amplicon, whole genome shotgun or single molecule sequencing approaches. Based on the novel mitogenomes, we estimate the origin of Schizophora within the Cretaceous-Paleogene (K-Pg) boundary, about 68.3?Ma. Detailed analyses of the blowfly family (Calliphoridae) place its origin at 22?Ma, concomitant with the radiation of grazing mammals. The emergence of ectoparasitism within calliphorids was dated 6.95?Ma for the screwworm fly and 2.3?Ma for the Australian sheep blowfly. Varying population histories were observed for the blowfly Chrysomya megacephala and the housefly Musca domestica samples in our dataset. Whereas blowflies (n?=?50) appear to have undergone selective sweeps and/or severe bottlenecks in the New World, houseflies (n?=?14) display variation among populations from different zoogeographical zones and low levels of gene flow. The reported high-throughput mitogenomics approach for insects enables new insights into schizophoran diversity and population history of flies.

Journal: Scientific reports
DOI: 10.1038/srep21762
Year: 2016

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