Barbash D A, Roote J, Ashburner M
Department of Genetics, University of Cambridge, United Kingdom.
Genetics. 2000 Apr;154(4):1747-71. doi: 10.1093/genetics/154.4.1747.
The Drosophila melanogaster mutation Hmr rescues inviable hybrid sons from the cross of D. melanogaster females to males of its sibling species D. mauritiana, D. simulans, and D. sechellia. We have extended previous observations that hybrid daughters from this cross are poorly viable at high temperatures and have shown that this female lethality is suppressed by Hmr and the rescue mutations In(1)AB and D. simulans Lhr. Deficiencies defined here as Hmr(-) also suppressed lethality, demonstrating that reducing Hmr(+) activity can rescue otherwise inviable hybrids. An Hmr(+) duplication had the opposite effect of reducing the viability of female and sibling X-male hybrid progeny. Similar dose-dependent viability effects of Hmr were observed in the reciprocal cross of D. simulans females to D. melanogaster males. Finally, Lhr and Hmr(+) were shown to have mutually antagonistic effects on hybrid viability. These data suggest a model where the interaction of sibling species Lhr(+) and D. melanogaster Hmr(+) causes lethality in 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 male and female hybrid progeny, but also that additional, unidentified genes must be invoked to account for the invariant lethality of hybrid sons of D. melanogaster mothers. Implications of our findings for understanding Haldane's rule-the observation that hybrid breakdown is often specific to the heterogametic sex-are also discussed.
果蝇黑腹果蝇的突变Hmr可挽救黑腹果蝇雌性与同胞物种毛里求斯果蝇、拟果蝇和塞舌尔果蝇雄性杂交产生的不可存活的杂种雄性。我们扩展了之前的观察结果,即这种杂交产生的杂种雌性在高温下生存能力较差,并表明这种雌性致死性可被Hmr以及挽救突变In(1)AB和拟果蝇Lhr抑制。此处定义为Hmr(-)的缺失也抑制了致死性,这表明降低Hmr(+)活性可以挽救原本不可存活的杂种。Hmr(+)的重复具有相反的效果,即降低雌性和同胞X-雄性杂种后代的生存能力。在拟果蝇雌性与黑腹果蝇雄性的反交中也观察到了Hmr类似的剂量依赖性生存能力效应。最后,Lhr和Hmr(+)对杂种生存能力表现出相互拮抗的作用。这些数据提示了一个模型,即同胞物种Lhr(+)和黑腹果蝇Hmr(+)的相互作用导致物种杂种的两性在两个杂交方向上均出现致死性。我们的结果进一步表明,Hmr(+)剂量的两倍差异部分解释了杂种雄性和雌性后代生存能力的差异,但也表明必须引入其他未鉴定的基因来解释黑腹果蝇母亲的杂种雄性不变的致死性。我们的发现对于理解霍尔丹法则(即杂种衰败通常特定于异配性别这一观察结果)的意义也进行了讨论。