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Molecular Biology and Evolution 19:1100-1113 (2002)
© 2002 Society for Molecular Biology and Evolution

Contrasting Rates of Mitochondrial Molecular Evolution in Parasitic Diptera and Hymenoptera

L. R. Castro*, A. D. Austin{dagger} and M. Dowton*{dagger}

*Institute for Conservation Biology, Department of Biology, The University of Wollongong, New South Wales;
{dagger}Centre for Evolutionary Biology and Biodiversity, Department of Environmental Biology The University of Adelaide, Glen Osmond, South Australia

We investigated the putative association between the parasitic lifestyle and an accelerated rate of mt genetic divergence, compositional bias, and gene rearrangement, employing a range of parasitic and nonparasitic Diptera and Hymenoptera. Sequences were obtained for the cox1, cox2, 16S, 28S genes, the regions between the cox2 and atp8 genes, and between the nad3 and nad5 genes. Relative rate tests indicated generally that the parasitic lifestyle was not associated with an increased rate of genetic divergence in the Diptera but reaffirmed that it was in the Hymenoptera. Similarly, a departure from compositional stationarity was not associated with parasitic Diptera but was in parasitic Hymenoptera. Finally, mitochondrial (mt) gene rearrangements were not observed in any of the dipteran species examined. The results indicate that these genetic phenomena are not accelerated in parasitic Diptera compared with nonparasitic Diptera. A possible explanation for the differences in the rate of mt molecular evolution in parasitic Diptera and Hymenoptera is the extraordinary level of radiation that has occurred within the parasitic Hymenoptera but not in any of the dipteran parasitic lineages. If speciation events in the parasitic Hymenoptera are associated with founder events, a faster rate of molecular evolution is expected. Alternatively, biological differences between endoparasitic Hymenoptera and endoparasitic Diptera may also account for the differences observed in molecular evolution.


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