Complex Epistasis and the Genetic Basis of Hybrid Sterility in the Drosophila pseudoobscura Bogota-USA Hybridization

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Complex Epistasis and the Genetic Basis of Hybrid Sterility in the Drosophila pseudoobscura Bogota-USA Hybridization

H. Allen Orr^a and Shannon Irving^a
^a Department of Biology, University of Rochester, Rochester, New York 14627

Corresponding author: H. Allen Orr, Department of Biology, University of Rochester, Rochester, NY 14627., aorr{at}mail.rochester.edu (E-mail)

Communicating editor: T. F. C. MACKAY

We analyzed the genetic basis of postzygotic isolation betweenthe Bogota and USA subspecies of Drosophila pseudoobscura. Thesesubspecies diverged very recently (perhaps as recently as 155,000to 230,000 years ago) and are partially reproductively isolated:Bogota and USA show very little prezygotic isolation but formsterile F₁ males in one direction of the hybridization. We dissectedthe basis of this hybrid sterility and reached four main conclusions.First, postzygotic isolation appears to involve a modest numberof genes: we found large chromosome regions that have no effecton hybrid fertility. Second, although apparently few in number,the factors causing hybrid sterility show a remarkably complexpattern of epistatic interaction. Hybrids suffer no hybrid sterilityuntil they carry the "right" allele (Bogota vs. USA) at at leastfour loci. We describe the complete pattern of interactionsbetween all chromosome regions known to affect hybrid fertility.Third, hybrid sterility is caused mainly by X-autosomal incompatibilities.Fourth, hybrid sterility does not involve a maternal effect,despite earlier claims to the contrary. In general, our resultssuggest that fewer genes are required for the appearance ofhybrid sterility than implied by previous studies of older pairsof Drosophila species. Indeed, a maximum likelihood analysissuggests that roughly 15 hybrid male steriles separate the Bogotaand USA subspecies. Only a subset of these would act in F₁ hybrids.

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