Of the several strategies that eukaryotes have evolved to modulate transcription factor activity, phosphorylation is regarded as one of the major mechanisms in signal-dependent transcriptional control. To conclusively demonstrate that the human sex-determining gene SRY is affected by such a post-translational control mechanism, we have analyzed its phosphorylation status in living cells. In the present study, we show that the cyclic AMP-dependent protein kinase (PKA) phosphorylates the human SRY protein in vitro as well as in vivo on serine residues located in the N-terminal part of the protein. This phosphorylation event was shown to positively regulate SRY DNA-binding activity and to enhance the ability of SRY to inhibit a basal promoter activity located downstream of an SRY DNA-binding site concatamer. Together these results strongly support the hypothesis that human SRY is a natural substrate for PKA in vivo and that this phosphorylation significantly modulates its major activity, DNA-binding, thereby possibly altering its biological function.