Abstract
The steps of sex chromosome evolution are often thought to follow a predictable pattern and tempo, but few studies have examined how the outcomes of this process differ between closely related species with homologous sex chromosomes. The sex chromosomes of the threespine stickleback (Gasterosteus aculeatus) and Japan Sea stickleback (G. nipponicus) have been well characterized. Little is known, however, about the sex chromosomes in their distantly related congener, the blackspotted stickleback (G. wheatlandi). We used pedigrees of interspecific crosses to obtain the first phased X and Y genomic sequences from blackspotted sticklebacks. Using novel statistical methods, we demonstrate that the oldest stratum of the Gasterosteus sex chromosomes evolved on Chromosome 19 in the ancestor of all three species. Despite this shared ancestry, the sex chromosomes of the blackspotted stickleback have experienced much more extensive recombination suppression, XY differentiation, and Y degeneration than those of the other two species. The ancestral blackspotted stickleback Y chromosome fused with Chromosome 12 less than 1.4 million years ago, which may have been favored by the very small size of the recombining region on the ancestral sex chromosome. Recombination is also suppressed between the X and Y over the bulk of Chromosome 12, although it has experienced little degeneration. These results demonstrate that sex chromosome evolution does not always follow a predictable tempo.
Competing Interest Statement
The authors have declared no competing interest.