Difference between revisions of "Lindholm et al. 2016"
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*https://www.sciencedirect.com/science/article/pii/S0169534716000434 | *https://www.sciencedirect.com/science/article/pii/S0169534716000434 | ||
*http://hawaiireedlab.com/pdf/l/lindholmetal2016.pdf | *http://hawaiireedlab.com/pdf/l/lindholmetal2016.pdf | ||
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| + | =Published Abstract= | ||
| + | Meiotic drivers are genetic variants that selfishly manipulate the production of gametes to increase their own rate of transmission, often to the detriment of the rest of the genome and the individual that carries them. This genomic conflict potentially occurs whenever a diploid organism produces a haploid stage, and can have profound evolutionary impacts on gametogenesis, fertility, individual behaviour, mating system, population survival, and reproductive isolation. Multiple research teams are developing artificial drive systems for pest control, utilising the transmission advantage of drive to alter or exterminate target species. Here, we review current knowledge of how natural drive systems function, how drivers spread through natural populations, and the factors that limit their invasion. | ||
[[Category:Publication]] | [[Category:Publication]] | ||
Latest revision as of 12:06, 4 October 2018
Citation
Lindholm, A. K., Dyer, K. A., Firman, R. C., Fishman, L., Forstmeier, W., Holman, L., ... & Manser, A. (2016). The Ecology and Evolutionary Dynamics of Meiotic Drive. Trends in Ecology & Evolution, 31(4).
Links
- https://www.sciencedirect.com/science/article/pii/S0169534716000434
- http://hawaiireedlab.com/pdf/l/lindholmetal2016.pdf
Published Abstract
Meiotic drivers are genetic variants that selfishly manipulate the production of gametes to increase their own rate of transmission, often to the detriment of the rest of the genome and the individual that carries them. This genomic conflict potentially occurs whenever a diploid organism produces a haploid stage, and can have profound evolutionary impacts on gametogenesis, fertility, individual behaviour, mating system, population survival, and reproductive isolation. Multiple research teams are developing artificial drive systems for pest control, utilising the transmission advantage of drive to alter or exterminate target species. Here, we review current knowledge of how natural drive systems function, how drivers spread through natural populations, and the factors that limit their invasion.
