一个x连锁的减数分裂驱动等位基因在雌性伪眼果蝇中具有很强的隐性适应成本

William Larner, T. Price, L. Holman, N. Wedell
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引用次数: 19

摘要

自私的“减数分裂驱动”等位基因被遗传给超过50%的后代,即使它们降低了携带它们的个体的适应性,也使它们能够迅速入侵种群。理论预测司机要么修复要么灭绝,然而一些司机无视这些预测,几十年来一直保持低而稳定的频率。对这种差异的一种可能的解释是,纯合子驱动的成本特别高,尽管对这一观点的实证测试很少且模棱两可。在这里,我们测量了携带0、1或2个x连锁驱动性比(SR)拷贝的雌性伪眼果蝇的适合度。SR对雌性后代的产量和生殖失败的概率有很强的负面影响,这些影响在四种遗传背景下基本相似。纯合子的SR成本特别高。我们利用适应度测量参数化了种群遗传模型,发现雌性适应度成本可以解释自然界中SR等位基因频率低得令人困惑的原因。我们还利用该模型展示了雌性交配行为的空间差异、SR的适应性成本和SR雄性繁殖成功率的降低如何共同解释北美SR频率的南北变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An X-linked meiotic drive allele has strong, recessive fitness costs in female Drosophila pseudoobscura
Selfish ‘meiotic drive’ alleles are transmitted to more than 50% of offspring, allowing them to rapidly invade populations even if they reduce the fitness of individuals carrying them. Theory predicts that drivers should either fix or go extinct, yet some drivers defy these predictions by persisting at low, stable frequencies for decades. One possible explanation for this discrepancy is that drivers are especially costly when homozygous, although empirical tests of this idea are rare and equivocal. Here, we measure the fitness of female Drosophila pseudoobscura carrying zero, one or two copies of the X-linked driver sex ratio (SR). SR had strong negative effects on female offspring production and the probability of reproductive failure, and these effects were largely similar across four genetic backgrounds. SR was especially costly when homozygous. We used our fitness measurements to parametrize a population genetic model, and found that the female fitness costs observed here can explain the puzzlingly low allele frequency of SR in nature. We also use the model to show how spatial variation in female mating behaviour, fitness costs of SR and the reduced siring success of SR males can jointly explain the north–south cline in SR frequencies across North America.
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