Kana Matsukawa, Yasuko Kato, Aya Yoshida, Hisaka Onishi, Sachiko Nakano, Masanobu Itoh, Toshiyuki Takano-Shimizu-Kouno
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引用次数: 0
摘要
性选择推动了形态、生理和行为特征的快速进化,尤其是雄性特征的快速进化,也可能推动了杂交雄性不育的快速进化。事实上,更快的雄性物种进化理论曾一度被认为是导致雄性异花授粉 XY 类群中霍尔丹规则的主要原因,但现在正逐渐被遗传冲突假说所取代,部分原因是该假说无法解释雌性异花授粉 ZW 类群中杂交雌性不育的更快进化。不过,该理论预测,即使在这类类群中,杂交雄性不育的基因也应多于杂交雌性不育的基因,但这一预测仍未得到验证。因此,在 ZW 系统中寻找 F1 代以外更快雄性生殖隔离理论的证据,仍然是研究性选择影响的一个挑战。在这项研究中,我们考察了驯化家蚕 Bombyx mori 和野生丝蛾 Bombyx mandarina 的 F2 杂交种,它们都具有 ZW 性别决定。我们发现,虽然 F1 代中只有雌性繁殖力下降,但与亲本和 F1 代雄性相比,F2 代杂交雄性繁殖力显著下降。重要的是,27%的F2雄性和15%的F2雌性完全不育,这表明在雌雄异交类群中存在导致雄性不育的隐性不相容性。
Sharp decline in male fertility in F2 hybrids of the female-heterogametic silk moth Bombyx.
Sexual selection drives rapid evolution of morphological, physiological, and behavioral traits, especially in males, and it may also drive the rapid evolution of hybrid male sterility. Indeed, the faster male theory of speciation was once viewed as a major cause of Haldane's rule in male-heterogametic XY taxa, but is increasingly being replaced by the genetic conflict hypothesis partly because it cannot explain the faster evolution of hybrid female sterility in female-heterogametic ZW taxa. The theory nonetheless predicts that there should be more genes for hybrid male sterility than for hybrid female sterility even in such taxa, but this remains untested. Thus, finding evidence for the faster male theory of reproductive isolation beyond the F1 generation in ZW systems still represents a challenge to studying the impact of sexual selection. In this study, we examined F2 hybrids between the domesticated silkworm Bombyx mori and the wild silk moth Bombyx mandarina, which have ZW sex determination. We found that although only females showed reduced fertility in the F1 generation, the F2 hybrid males had a significant reduction in fertility compared with the parental and F1 males. Importantly, 27% of the F2 males and 15% of the F2 females were completely sterile, suggesting the presence of recessive incompatibilities causing male sterility in female-heterogametic taxa.
期刊介绍:
GENETICS is published by the Genetics Society of America, a scholarly society that seeks to deepen our understanding of the living world by advancing our understanding of genetics. Since 1916, GENETICS has published high-quality, original research presenting novel findings bearing on genetics and genomics. The journal publishes empirical studies of organisms ranging from microbes to humans, as well as theoretical work.
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