沃尔巴克氏菌
生物
细胞质不亲和性
孤雌生殖
丽蝇蛹集金小蜂
寄生蜂
单倍体
遗传学
双性恋
昆虫
基因
寄生蜂
进化生物学
寄主(生物学)
倍性
植物
金小蜂科
RNA剪接
核糖核酸
胚胎
作者
Ce Li,Chuqiao Li,Zhan-Bo Chen,Bingqi Liu,Xiang Sun,Kai-Heng Wei,Chenyi Li,Junbo Luan
出处
期刊:Current Biology
[Elsevier]
日期:2024-04-30
卷期号:34 (11): 2359-2372.e9
被引量:4
标识
DOI:10.1016/j.cub.2024.04.035
摘要
Host reproduction can be manipulated by bacterial symbionts in various ways. Parthenogenesis induction is the most effective type of reproduction manipulation by symbionts for their transmission. Insect sex is determined by regulation of doublesex (dsx) splicing through transformer2 (tra2) and transformer (tra) interaction. Although parthenogenesis induction by symbionts has been studied since the 1970s, its underlying molecular mechanism is unknown. Here we identify a Wolbachia parthenogenesis-induction feminization factor gene (piff) that targets sex-determining genes and causes female-producing parthenogenesis in the haplodiploid parasitoid Encarsia formosa. We found that Wolbachia elimination repressed expression of female-specific dsx and enhanced expression of male-specific dsx, which led to the production of wasp haploid male offspring. Furthermore, we found that E. formosa tra is truncated and non-functional, and Wolbachia has a functional tra homolog, termed piff, with an insect origin. Wolbachia PIFF can colocalize and interact with wasp TRA2. Moreover, Wolbachia piff has coordinated expression with tra2 and dsx of E. formosa. Our results demonstrate the bacterial symbiont Wolbachia has acquired an insect gene to manipulate the host sex determination cascade and induce parthenogenesis in wasps. This study reveals insect-to-bacteria horizontal gene transfer drives the evolution of animal sex determination systems, elucidating a striking mechanism of insect-microbe symbiosis.
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