Nonneutral Evolution and Differential Mutation Rate of Gender-Associated Mitochondrial DNA Lineages in the Marine Mussel Mytilus

Nonneutral Evolution and Differential Mutation Rate of Gender-Associated Mitochondrial DNA Lineages in the Marine Mussel Mytilus

Humberto Quesada^a, Mary Warren^a, and David O. F. Skibinski^a
^a School of Biological Sciences, University of Wales, Swansea SA2 8PP, United Kingdom

Corresponding author: David O. F. Skibinski, School of Biological Sciences, University of Wales, Swansea SA2 8PP, UK, d.o.f.skibinski{at}swansea.ac.uk (E-mail).

Communicating editor: A. G. CLARK

Mussels have two types of mitochondrial DNA (mtDNA). The M typeis transmitted paternally, and the F type is transmitted maternally.To test hypotheses of the molecular evolution of both mtDNAgenomes, 50 nucleotide sequences were obtained for 396 bp ofthe COIII gene of European populations of Mytilus edulis andthe Atlantic and Mediterranean forms of M. galloprovincialis.Analysis based on the proportion of synonymous and nonsynonymoussubstitutions indicate that mtDNA is evolving in a non-neutraland complex fashion. Previous studies on American mussels demonstratedthat the F genome experiences a higher purifying selection andthat the M genome evolves faster. Here we show that these patternsalso hold in European populations. However, in contrast to Americanpopulations, where an excess of replacement substitution betweenF and M lineages has been reported, a significant excess ofreplacement polymorphism within mtDNA lineages is observed inEuropean populations of M. galloprovincialis. European populationsalso show an excess of replacement polymorphism within the Fbut not within the M genome with respect to American M. trossulus,as well as a consistent pattern of excess of rare variants inboth F and M genomes. These results are consistent with a nearlyneutral model of molecular evolution and a recent relaxationof selective constraints on European mtDNA. Levels of diversityare significantly higher for the M than F genome, and the Mgenome also accumulates synonymous and nonsynonymous substitutionsat a higher rate, in contrast with earlier reports where nodifference for the synonymous rate was observed. It is suggestedthat a subtle balance between relaxed selection and a highermutation rate explains the faster evolutionary rate of the Mlineage.

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