Keais, GLH, M. A.; Gowen, B. E.; Perlman, S. J.,
Journal of Evolutionary Biology,
30:1185-1194.
2017.
Selfish genes that bias their own transmission during meiosis can spread rapidly in populations, even if they contribute negatively to the fitness of their host. Driving X chromosomes provide a clear example of this type of selfish propagation. These chromosomes have important evolutionary and ecological consequences, and can be found in a broad range of taxa including plants, mammals and insects. Here, we report a new case of X chromosome drive (X drive) in a widespread woodland fly, Drosophila testacea. We show that males carrying the driving X (SR males) sire 80-100% female offspring and possess a diagnostic X chromosome haplotype that is perfectly associated with the sex ratio distortion phenotype. We find that the majority of sons produced by SR males are sterile and appear to lack a Y chromosome, suggesting that meiotic defects involving the Y chromosome may underlie X drive in this species. Abnormalities in sperm cysts of SR males reflect that some spermatids are failing to develop properly, confirming that drive is acting during gametogenesis. By screening wild-caught flies using progeny sex ratios and a diagnostic marker, we demonstrate that the driving X is present in wild populations at a frequency of similar to 10% and that suppressors of drive are segregating in the same population. The testacea species group appears to be a hot spot for X drive, and D. testacea is a promising model to compare driving X chromosomes in closely related species, some of which may even be younger than the chromosomes themselves.
https://www.geneconvenevi.org/wp-content/uploads/2020/04/Journal-of-Evolutionary-Biology.png300300Academic Web Pageshttps://www.geneconvenevi.org/wp-content/uploads/2024/08/fnih-rm-mid.pngAcademic Web Pages2017-01-10 00:00:002024-09-12 10:48:22X chromosome drive in a widespread Palearctic woodland fly, Drosophila testacea