自然拟果蝇种群中细胞质不亲和性与线粒体DNA变异的动态变化
Dynamics of cytoplasmic incompatibility and mtDNA variation in natural Drosophila simulans populations.
作者信息
Turelli M, Hoffmann A A, McKechnie S W
机构信息
Department of Genetics, University of California, Davis 95616.
出版信息
Genetics. 1992 Nov;132(3):713-23. doi: 10.1093/genetics/132.3.713.
Abstract
In Drosophila simulans a cytoplasmically transmitted microorganism causes reduced egg hatch when infected males mate with uninfected females. The infection is rapidly spreading northward in California. Data on a specific mtDNA restriction site length polymorphism show that changes in the frequency of mtDNA variants are associated with this spread. All infected flies possess the same mtDNA allele, whereas the uninfected flies are polymorphic. Given that both paternal inheritance of the infection and imperfect maternal transmission have been demonstrated, one might expect instead that both infected and uninfected flies would possess both mtDNA variants. Our data suggest that imperfect female transmission of the infection (and/or the loss of the infection among progeny) is more common in nature than paternal transmission. A simple model of intrapopulation dynamics, with empirically supported parameter values, adequately describes the joint frequencies of the mtDNA variants and incompatibility types.
摘要
在拟果蝇中,一种通过细胞质传播的微生物会导致受感染雄蝇与未受感染雌蝇交配时卵孵化率降低。这种感染正在加利福尼亚迅速向北蔓延。关于特定线粒体DNA(mtDNA)限制性位点长度多态性的数据表明,mtDNA变体频率的变化与这种传播有关。所有受感染的果蝇都具有相同的mtDNA等位基因,而未受感染的果蝇则具有多态性。鉴于已经证明了感染的父系遗传和不完全的母系传播,人们可能反而会预期受感染和未受感染的果蝇都会拥有两种mtDNA变体。我们的数据表明,感染的不完全雌性传播(和/或后代中感染的丧失)在自然界中比父系传播更为常见。一个具有经实证支持的参数值的种群内动态简单模型,能够充分描述mtDNA变体和不相容类型的联合频率。
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