Sexually Antagonistic Cytonuclear Fitness Interactions in Drosophila melanogaster

Sexually Antagonistic Cytonuclear Fitness Interactions in Drosophila melanogaster

David M. Rand^a, Andrew G. Clark^b, and Lisa M. Kann^a
^a Department of Ecology and Evolutionary Biology, Brown University, Providence, Rhode Island 02912
^b Department of Biology, Pennsylvania State University, University Park, Pennsylvania 16802

Corresponding author: David M. Rand, Department of Ecology and Evolutionary Biology, 69 Brown St., Providence, RI 02912., david_rand{at}brown.edu (E-mail)

Communicating editor: J. HEY

Theoretical and empirical studies have shown that selectioncannot maintain a joint nuclear-cytoplasmic polymorphism withina population except under restrictive conditions of frequency-dependentor sex-specific selection. These conclusions are based on fitnessinteractions between a diploid autosomal locus and a haploidcytoplasmic locus. We develop a model of joint transmissionof X chromosomes and cytoplasms and through simulation showthat nuclear-cytoplasmic polymorphisms can be maintained byselection on X-cytoplasm interactions. We test aspects of themodel with a "diallel" experiment analyzing fitness interactionsbetween pairwise combinations of X chromosomes and cytoplasmsfrom wild strains of Drosophila melanogaster. Contrary to earlierautosomal studies, significant fitness interactions betweenX chromosomes and cytoplasms are detected among strains fromwithin populations. The experiment further demonstrates significantsex-by-genotype interactions for mtDNA haplotype, cytoplasms,and X chromosomes. These interactions are sexually antagonistic—i.e.,the "good" cytoplasms in females are "bad" in males—analogousto crossing reaction norms. The presence or absence of Wolbachiadid not alter the significance of the fitness effects involvingX chromosomes and cytoplasms but tended to reduce the significanceof mtDNA fitness effects. The negative fitness correlationsbetween the sexes demonstrated in our empirical study are consistentwith the conditions that maintain cytoplasmic polymorphism insimulations. Our results suggest that fitness interactions withthe sex chromosomes may account for some proportion of cytoplasmicvariation in natural populations. Sexually antagonistic selectionor reciprocally matched fitness effects of nuclear-cytoplasmicgenotypes may be important components of cytonuclear fitnessvariation and have implications for mitochondrial disease phenotypesthat differ between the sexes.

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