Scientific Reports (Mar 2021)

Novel combination of CRISPR-based gene drives eliminates resistance and localises spread

  • Nicky R. Faber,
  • Gus R. McFarlane,
  • R. Chris Gaynor,
  • Ivan Pocrnic,
  • C. Bruce A. Whitelaw,
  • Gregor Gorjanc

DOI
https://doi.org/10.1038/s41598-021-83239-4
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 15

Abstract

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Abstract Invasive species are among the major driving forces behind biodiversity loss. Gene drive technology may offer a humane, efficient and cost-effective method of control. For safe and effective deployment it is vital that a gene drive is both self-limiting and can overcome evolutionary resistance. We present HD-ClvR in this modelling study, a novel combination of CRISPR-based gene drives that eliminates resistance and localises spread. As a case study, we model HD-ClvR in the grey squirrel (Sciurus carolinensis), which is an invasive pest in the UK and responsible for both biodiversity and economic losses. HD-ClvR combats resistance allele formation by combining a homing gene drive with a cleave-and-rescue gene drive. The inclusion of a self-limiting daisyfield gene drive allows for controllable localisation based on animal supplementation. We use both randomly mating and spatial models to simulate this strategy. Our findings show that HD-ClvR could effectively control a targeted grey squirrel population, with little risk to other populations. HD-ClvR offers an efficient, self-limiting and controllable gene drive for managing invasive pests.