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A CRISPR homing gene drive targeting a haplolethal gene removes resistance alleles and successfully spreads through a cage population

Jackson Champer, Emily Yang, Esther Lee, Jingxian Liu, Andrew G. Clark, Philipp W. Messer

2020Proceedings of the National Academy of Sciences140 citationsDOIOpen Access PDF

Abstract

that reduces the prevalence of resistance alleles below detectable levels by targeting a haplolethal gene with two guide RNAs (gRNAs) while also providing a rescue allele. Resistance alleles that form by end-joining repair typically disrupt the haplolethal target gene and are thus removed from the population because individuals that carry them are nonviable. We demonstrate that our drive is highly efficient, with 91% of the progeny of drive heterozygotes inheriting the drive allele and with no functional resistance alleles observed in the remainder. In a large cage experiment, the drive allele successfully spread to all individuals within a few generations. These results show that a haplolethal homing drive can provide an effective tool for targeted genetic modification of entire populations.

Topics & Concepts

CRISPRAlleleGeneticsCageGeneGene driveBiologyPopulationHoming (biology)MedicineEngineeringEcologyEnvironmental healthStructural engineeringCRISPR and Genetic EngineeringMosquito-borne diseases and controlInsect symbiosis and bacterial influences
A CRISPR homing gene drive targeting a haplolethal gene removes resistance alleles and successfully spreads through a cage population | Litcius