[HTML][HTML] SRY, SOX9, and DAX1 expression patterns during human sex determination and gonadal development

NA Hanley, DM Hagan, M Clement-Jones… - Mechanisms of …, 2000 - Elsevier
NA Hanley, DM Hagan, M Clement-Jones, SG Ball, T Strachan, L Salas-Cortes…
Mechanisms of development, 2000Elsevier
SRY, SOX9, and DAX1 are key genes in human sex determination, by virtue of their
associated male-to-female sex reversal phenotypes when mutated (SRY, SOX9) or over-
expressed (DAX1). During human sex determination, SRY is expressed in 46, XY gonads
coincident with sex cord formation, but also persists as nuclear protein within Sertoli cells at
18 weeks gestation. High-level SOX9 expression in the sex cords of the testis parallels that
seen during mouse development, however in humans, SOX9 transcripts also are detected in …
SRY, SOX9, and DAX1 are key genes in human sex determination, by virtue of their associated male-to-female sex reversal phenotypes when mutated (SRY, SOX9) or over-expressed (DAX1). During human sex determination, SRY is expressed in 46,XY gonads coincident with sex cord formation, but also persists as nuclear protein within Sertoli cells at 18 weeks gestation. High-level SOX9 expression in the sex cords of the testis parallels that seen during mouse development, however in humans, SOX9 transcripts also are detected in the developing ovary. Low-level DAX1 expression predates peak SRY expression by at least 10 days, and persists in Sertoli cells throughout the entire sex determination period. In Dosage Sensitive Sex reversal, the anti-testis properties of DAX1 over-expression could act prior to the peak effects of SRY and continue during the period of SOX9 expression. These findings highlight expression differences for the SRY, SOX9, and DAX1 genes during sex determination in humans and mice. These results provide a direct framework for future investigation into the mechanisms underlying normal and abnormal human sex determination.
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