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Maintenance of adaptive differentiation by Wolbachia induced bidirectional cytoplasmic incompatibility: the importance of sib-mating and genetic systems

机译：Wolbachia诱导的双向胞质不相容性维持适应性分化：同胞和遗传系统的重要性

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BackgroundBacteria of the genus Wolbachia are reproductive parasites widespread among arthropods. The most common effect arising from the presence of Wolbachia in a population is Cytoplasmic Incompatibility (CI), whereby postmating reproductive isolation occurs in crosses between an infected male and an uninfected female, or when a male is infected with a different strain of Wolbachia to that of the female (bidirectional CI). Previous theoretical models have demonstrated that bidirectional CI can contribute to the genetic divergence of populations in haploid and diploid organisms. However, haplodiploid organisms were not considered in these models even though they include Nasonia parasitoid wasps – the best example of the implication of Wolbachia in ongoing speciation. Moreover, previous work did not investigate inbreeding mating systems, which are frequently observed in arthropod species.

机译：背景Wolbachia属细菌是节肢动物中广泛分布的生殖寄生虫。种群中最常见的Wolbachia效应是细胞质不相容性（CI），即在受感染的雄性和未感染的雌性之间的杂交中，或者当男性感染了与Wolbachia不同的Wolbachia菌株时，发生后期生殖隔离女性（双向CI）。先前的理论模型表明，双向CI可以促进单倍体和二倍体生物种群的遗传差异。但是，即使这些单倍体生物体包括纳索尼亚寄生性黄蜂，也没有考虑这些单倍体生物体–这是沃尔巴克氏菌对正在进行的物种形成具有影响的最好例子。而且，以前的工作没有研究近节交配系统，这在节肢动物中经常观察到。

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期刊名称 BMC Evolutionary Biology
作者
Antoine Branca; Fabrice Vavre; Jean-François Silvain; Stéphane Dupas;
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年(卷),期 2009(9),-1
年度 2009
页码 185
总页数 13
原文格式 PDF
正文语种
中图分类遗传学;进化论、生物系统发育;
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专利

1. Maintenance of adaptive differentiation by Wolbachia induced bidirectional cytoplasmic incompatibility: the importance of sib-mating and genetic systems [J] . Antoine Branca, Fabrice Vavre, Jean-Fran?ois Silvain, BMC Evolutionary Biology . 2009,第1期

机译：Wolbachia诱导的双向胞质不相容性维持适应性分化：同胞和遗传系统的重要性
2. Bidirectional Cytoplasmic Incompatibility Induced by Cross-Order Transfection of Wolbachia: Implications for Control of the Host Population [J] . Zhong Yong, Li Zheng-Xi Microbial Ecology: An International Journal . 2014,第3期

机译：Wolbachia跨订单转染诱导的双向细胞质不相容性：控制宿主种群的含义。
3. Bidirectional Cytoplasmic Incompatibility Induced by Cross-Order Transfection of Wolbachia: Implications for Control of the Host Population [J] . Zhong Yong, Li Zheng-Xi Microbial Ecology: An International Journal . 2014,第3期

机译：Wolbachia跨订单转染诱导的双向细胞质不相容性：控制宿主种群的含义。
4. Hybrid breeding of winter oilseed rape by utilization of self-incompatibility and cytoplasmic male sterility systems [C] . Vratislav Kucera, Miroslava Vyvadilova, Miroslav Klima Proceedings of the 12th International Rapeseed Congress: Sustainable Development in Cruciferous Oilseed Crops Production . 2007

机译：利用自交不亲和细胞质雄性不育系统杂交育种冬季油菜
5. Self-incompatibility in Theobroma cacao L.: New data suggest an adaptive incompatibility system. [D] . Baker, Robert Paul. 1997

机译：可可豆中的自我不相容性：新数据提示了一种适应性不相容性系统。
6. The effect of Wolbachia-induced cytoplasmic incompatibility on host population size in natural and manipulated systems. [O] . Stephen L Dobson, Charles W Fox, Francis M Jiggins 2002

机译：沃尔巴氏菌诱导的细胞质不相容性对自然和操纵系统中宿主种群大小的影响。
7. Maintenance of adaptive differentiation by Wolbachia induced bidirectional cytoplasmic incompatibility: the importance of sib-mating and genetic systems [O] . Branca, Antoine, Vavre, Fabrice, Silvain, Jean-François, 2009

机译：Wolbachia诱导的双向胞质不相容性维持适应性分化：同胞和遗传系统的重要性

Maintenance of adaptive differentiation by Wolbachia induced bidirectional cytoplasmic incompatibility: the importance of sib-mating and genetic systems

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