Journal
JOURNAL OF THE ROYAL SOCIETY INTERFACE
Volume 11, Issue 93, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rsif.2013.1071
Keywords
population genetics; population dynamics; genetic vector control; homing endonuclease gene
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Funding
- UK Biotechnology and Biological Sciences Research Council [BB/H01814X/1]
- BBSRC [BB/L00948X/1, BB/H01814X/1] Funding Source: UKRI
- Biotechnology and Biological Sciences Research Council [BB/H01814X/1, BB/L00948X/1] Funding Source: researchfish
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Some proposed genetics-based vector control methods aim to suppress or eliminate a mosquito population in a similar manner to the sterile insect technique. One approach under development in Anopheles mosquitoes uses homing endonuclease genes (HEGs)-selfish genetic elements (inherited at greater than Mendelian rate) that can spread rapidly through a population even if they reduce fitness. HEGs have potential to drive introduced traits through a population without large-scale sustained releases. The population genetics of HEG-based systems has been established using discrete-time mathematical models. However, several ecologically important aspects remain unexplored. We formulate a new continuous-time (overlapping generations) combined population dynamic and genetic model and apply it to a HEG that targets and knocks out a gene that is important for survival. We explore the effects of density dependence ranging from undercompensating to overcompensating larval competition, occurring before or after HEG fitness effects, and consider differences in competitive effect between genotypes (wild-type, heterozygotes and HEG homozygotes). We show that population outcomes-elimination, suppression or loss of the HEG-depend crucially on the interaction between these ecological aspects and genetics, and explain how the HEG fitness properties, the homing rate (drive) and the insect's life-history parameters influence those outcomes.
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