1. XY FEMALES DO BETTER THAN THE XX IN THE AFRICAN PYGMY MOUSE,MUS MINUTOIDES
- Author
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Julie Perez, Pierre-André Crochet, Paul A. Saunders, Massilva Rahmoun, Frédéric Veyrunes, and Ophélie Ronce
- Subjects
Litter (animal) ,Genetics ,biology ,Offspring ,Mus minutoides ,Zoology ,biology.organism_classification ,Life history theory ,Meiosis ,Mutation (genetic algorithm) ,Sex-determination system ,General Agricultural and Biological Sciences ,Ecology, Evolution, Behavior and Systematics ,X chromosome - Abstract
All therian mammals have a similar XY/XX sex-determination system except for a dozen species. The African pygmy mouse, Mus minutoides, harbors an unconventional system in which all males are XY, and there are three types of females: the usual XX but also XX* and X*Y ones (the asterisk designates a sex-reversal mutation on the X chromosome). The long-term evolution of such a system is a paradox, because X*Y females are expected to face high reproductive costs (e.g., meiotic disruption and loss of unviable YY embryos), which should prevent invasion and maintenance of a sex-reversal mutation. Hence, mechanisms for compensating for the costs could have evolved in M. minutoides. Data gathered from our laboratory colony revealed that X*Y females do compensate and even show enhanced reproductive performance in comparison to the XX and XX*; they produce significantly more offspring due to (i) a higher probability of breeding, (ii) an earlier first litter, and (iii) a larger litter size, linked to (iv) a greater ovulation rate. These findings confirm that rare conditions are needed for an atypical sex-determination mechanism to evolve in mammals, and provide valuable insight into understanding modifications of systems with highly heteromorphic sex chromosomes.
- Published
- 2014