The Drosophila melanogaster Hybrid male rescue Gene Causes Inviability in Male and Female Species Hybrids

The Drosophila melanogaster Hybrid male rescue Gene Causes Inviability in Male and Female Species Hybrids

Daniel A. Barbash^a, John Roote^a, and Michael Ashburner^a
^a Department of Genetics, University of Cambridge, Cambridge CB2 3EH, United Kingdom

Corresponding author: Daniel A. Barbash, Department of Genetics, University of Cambridge, Downing St., Cambridge CB2 3EH, United Kingdom., d.barbash{at}gen.cam.ac.uk (E-mail)

Communicating editor: C.-I WU

The Drosophila melanogaster mutation Hmr rescues inviable hybridsons from the cross of D. melanogaster females to males of itssibling species D. mauritiana, D. simulans, and D. sechellia.We have extended previous observations that hybrid daughtersfrom this cross are poorly viable at high temperatures and haveshown that this female lethality is suppressed by Hmr and therescue mutations In(1)AB and D. simulans Lhr. Deficiencies definedhere as Hmr^- also suppressed lethality, demonstrating that reducingHmr⁺ activity can rescue otherwise inviable hybrids. An Hmr⁺duplication had the opposite effect of reducing the viabilityof female and sibling X-male hybrid progeny. Similar dose-dependentviability effects of Hmr were observed in the reciprocal crossof D. simulans females to D. melanogaster males. Finally, Lhrand Hmr⁺ were shown to have mutually antagonistic effects onhybrid viability. These data suggest a model where the interactionof sibling species Lhr⁺ and D. melanogaster Hmr⁺ causes lethalityin both sexes of species hybrids and in both directions of crossing.Our results further suggest that a twofold difference in Hmr⁺dosage accounts in part for the differential viability of maleand female hybrid progeny, but also that additional, unidentifiedgenes must be invoked to account for the invariant lethalityof hybrid sons of D. melanogaster mothers. Implications of ourfindings for understanding Haldane's rule—the observationthat hybrid breakdown is often specific to the heterogameticsex—are also discussed.

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