Keywords: experimental evolution
Sperm competition suppresses gene drive among experimentally evolving populations of house miceManser, AL, A. K.; Simmons, L. W.; Firman, R. C., Molecular Ecology, 26:5784-5792. 2017.
Drive genes are genetic elements that manipulate the 50% ratio of Mendelian inheritance in their own favour, allowing them to rapidly propagate through populations. The action of drive genes is often hidden, making detection and identification inherently difficult. Yet drive ...
Keywords: Biochemistry & Molecular Biology, dynamics, Environmental Sciences & Ecology, Evolutionary Biology, experimental evolution, Gene drive, gene drive ecology, gene drive evolution, house mouse, low-frequency, male-fertility, mate choice, meiotic drive, mouse, multiple paternity, natural-populations, polyandry, selection, sexual, sperm competition, t-haplotypes, tailless, wild populations
Foundation for the
National Institutes of Health