Sex determination and differentiation are fundamental processes that are not only essential for fertility but also influence the development of many other organs, and hence, are important for species diversity and survival. In mammals, sex is determined by the inheritance of an X or a Y chromosome from the father. The Y chromosome harbours the testis-determining gene SRY, and it has long been thought that its absence is sufficient for ovarian development. Consequently, the ovarian pathway has been treated as a default pathway, in the sense that ovaries do not have or need a female-determining factor. Recently, a female-determining factor has been identified in mouse as the master regulator of ovarian development. Interestingly, this scenario was predicted as early as 1983. In this Review, we discuss the model predicted in 1983, how the mechanisms and genes currently known to be important for sex determination and differentiation in mammals have changed or supported this model, and finally, reflect on what these findings might mean for sex determination in other vertebrates.

Keywords:
Gonad development, Sex determination, SRY, WT1, Testis, Ovary
Subjects:
Gametogenesis and fertilisation

Funding

This work was supported by the Agence Nationale de la Recherche (ANR-23-CE14-0012 HeteroSex and ANR-24-CE14-2476 Anaform).

© 2025. Published by The Company of Biologists
2025
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