Lopes, P. C. and A. K. Lindholm,
The Journal of Experimental Biology,
2019:212704.
2019.
Gene drive systems can lead to the evolution of traits that further enhance the transmission of the driving element. In gene drive, one allele is transmitted to offspring at a higher frequency than the homologous allele. This has a range of consequences, which generally include a reduction in fitness of the carrier of the driving allele, making such systems “selfish”. The t haplotype is one such driver, found in house mice. It is linked to a reduction in litter size in matings among heterozygous animals, but also to increased lifespan in wild females that carry it. Here, we tested whether carrying the t haplotype was associated with altered resting metabolic rate (RMR). We show that females carrying the t haplotype decrease RMR as they increase in size, compared to wildtype females or males of either genotype. Our study elucidates a plausible mechanism by which a selfish genetic element increases lifespan.
https://www.geneconvenevi.org/wp-content/uploads/2020/04/Journal-of-Experimental-Biology-1.png300300David Obrochtahttps://www.geneconvenevi.org/wp-content/uploads/2024/08/fnih-rm-mid.pngDavid Obrochta2019-12-17 18:01:152024-09-12 15:38:02A selfish genetic element linked to increased lifespan impacts metabolism in female house mice