Assessment of drive efficiency and resistance allele formation of a homing gene drive in the mosquito Aedes aegypti

IF 4.3 1区农林科学 Q1 ENTOMOLOGY Journal of Pest Science Pub Date : 2025-01-08 DOI:10.1007/s10340-024-01864-0

Xiaozhen Yang, Xuejiao Xu, Yixian Chen, Jiajia Wei, Wanting Huang, Songqing Wu, Jackson Champer, Junxiang Wang

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Abstract

Aedes aegypti, known for transmitting viruses such as dengue, Zika and yellow fever, poses a significant public health threat. Conventional insecticides give rise to a range of issues, including ecological contamination and insect resistance. Hence, there is a pressing demand for environmentally-friendly, safer and more efficacious strategies for mosquito control. With the rapid advancement of the CRISPR/Cas9 system in gene function exploration and pest population control, substantial progress has been achieved in utilizing CRISPR/Cas9-based gene drive systems across various mosquito species. Only a few studies on gene drive technology have been conducted in Ae. aegypti. In this study, we constructed two complete drives for Ae. aegypti with different Cas9 promoters, each targeting kmo. Our drive based on PubCas9 had limited activity, but one with ExuCas9 exhibited super-Mendelian inheritance rates of approximately 60%. We observed low but detectable somatic activity of the drive and no evidence of maternally deposited Cas9. Germline resistance allele formation rates were similar to drive conversion rates, but most wild-type alleles in the germline remained uncut. Injections into the ExuCas9 drive line had 100% knockout efficiency among surviving offspring at three separate target genes. These results support the development and application of novel genetic pest control technologies aimed at combating Ae. aegypti.

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埃及伊蚊归巢基因驱动效率及抗性等位基因形成评价

埃及伊蚊以传播登革热、寨卡病毒和黄热病等病毒而闻名，对公共卫生构成重大威胁。传统杀虫剂会引起一系列问题，包括生态污染和昆虫抗药性。因此，迫切需要更环保、更安全、更有效的灭蚊策略。随着CRISPR/Cas9系统在基因功能探索和害虫种群控制方面的快速发展，基于CRISPR/Cas9的基因驱动系统在多种蚊子种群中的应用取得了实质性进展。基因驱动技术在Ae中的研究很少。蚊。在本研究中，我们构建了两个完整的Ae驱动。有不同Cas9启动子的埃及伊蚊，每个都靶向kmo。我们基于PubCas9的驱动器具有有限的活性，但是一个带有ExuCas9的驱动器显示出大约60%的超级孟德尔遗传率。我们观察到驱动器的低但可检测的体细胞活性，没有证据表明母体沉积Cas9。种系抗性等位基因的形成率与驱动转化率相似，但种系中大多数野生型等位基因仍未被切割。注射到ExuCas9驱动系中，在三个不同的靶基因中，存活后代的敲除效率为100%。这些结果支持了针对伊蚊的新型遗传害虫防治技术的开发和应用。蚊。

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来源期刊

Journal of Pest Science 生物-昆虫学

CiteScore

10.40

自引率

8.30%

发文量

114

审稿时长

6-12 weeks

期刊介绍： Journal of Pest Science publishes high-quality papers on all aspects of pest science in agriculture, horticulture (including viticulture), forestry, urban pests, and stored products research, including health and safety issues. Journal of Pest Science reports on advances in control of pests and animal vectors of diseases, the biology, ethology and ecology of pests and their antagonists, and the use of other beneficial organisms in pest control. The journal covers all noxious or damaging groups of animals, including arthropods, nematodes, molluscs, and vertebrates. Journal of Pest Science devotes special attention to emerging and innovative pest control strategies, including the side effects of such approaches on non-target organisms, for example natural enemies and pollinators, and the implementation of these strategies in integrated pest management. Journal of Pest Science also publishes papers on the management of agro- and forest ecosystems where this is relevant to pest control. Papers on important methodological developments relevant for pest control will be considered as well.