致倦库蚊
生物
库蚊
人口
载体(分子生物学)
西尼罗河病毒
基因驱动
等位基因
遗传学
基因
清脆的
抗药性
群体遗传学
动物
灭蚊
生态学
Cas9
抗性(生态学)
进化生物学
基因库
生物技术
遗传(遗传算法)
人口瓶颈
病毒学
遗传变异
作者
X H Feng,Jinying Ding,Yiran Liu,Víctor López Del Amo,Valentino M. Gantz,Xue‐Xin Chen,Jackson Champer,Feng Liu
标识
DOI:10.1038/s41467-026-73641-9
摘要
Culex quinquefasciatus is a major vector of West Nile virus and other pathogens, yet genetic population suppression tools for this species remain limited. Here, we develop a self-limiting, CRISPR-based suppression gene drive system targeting doublesex, close to the male-determining locus, promoting male transmission. A recoded dsxM sequence converts females into sterile intersexes, preventing population-level spread. The drive achieves super-Mendelian inheritance ( ~ 71%) and generates resistance alleles that are fully or partially dominant female sterile. Single-release cage trials show extended but self-limiting population suppression. Population modeling of this RIDD (Release of Insects carrying a Dominant-sterile Drive) system further indicates that repeated releases can substantially reduce fertile female numbers at low release ratios and intrinsic growth rates, outperforming non-drive strategies under comparable conditions. Together, these results establish a self-limiting suppression gene drive platform for Culex, providing a confined and sustainable framework for vector population control. Culex mosquitoes drive the spread of West Nile virus, yet controlling their populations remains challenging. Here, authors develop a self-limiting CRISPR-based genetic approach that converts female mosquitoes into sterile intersexes, enabling effective and confined population suppression.
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