期刊
SCIENCE
卷 375, 期 6581, 页码 663-+出版社
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.abj1813
关键词
-
资金
- [GenAsex ANR-17-CE02-0016-01]
The current theory suggests that degenerated sex chromosomes, such as the mammalian Y chromosome, evolve through three steps: recombination arrest, Y degeneration, and dosage compensation. Our study shows that early emergence of dosage compensation helps maintain Y-linked inversions, while the degeneration of these inversions is caused by regulatory divergence between the X and Y chromosomes. Contrary to current theory, this process occurs without selective pressure related to sexual dimorphism.
Current theory proposes that degenerated sex chromosomes-such as the mammalian Y-evolve through three steps: (i) recombination arrest, linking male-beneficial alleles to the Y chromosome; (ii) Y degeneration, resulting from the inefficacy of selection in the absence of recombination; and (iii) dosage compensation, correcting the resulting low expression of X-linked genes in males. We investigate a model of sex chromosome evolution that incorporates the coevolution of cis and trans regulators of gene expression. We show that the early emergence of dosage compensation favors the maintenance of Y-linked inversions by creating sex-antagonistic regulatory effects. This is followed by degeneration of these nonrecombining inversions caused by regulatory divergence between the X and Y chromosomes. In contrast to current theory, the whole process occurs without any selective pressure related to sexual dimorphism.
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