The mouse Sry locus harbors a cryptic exon that is essential for male sex determination

For several decades, it has been believed that the mammalian sex-determining gene Sry contains a single exon. Miyawaki et al. have now identified a cryptic second exon of mouse Sry . Loss- and gain-of-function analyses revealed that the two-exon SRY (SRY-T), not the canonical single exon–encoded SRY (SRY-S), is the bona fide testis-determining factor. Sry exon2 is composed of retrotransposon-derived sequences. The SRY-S carboxyl terminus contains a degradation sequence (degron), whereas the SRY-T carboxyl terminus encoded in the Sry exon2 is degron free, thereby conferring protein stability on SRY-T. Science , this issue p. 121 The mouse Sry locus includes a two-exon–coded SRY protein that is necessary and sufficient for male sex determination. The mammalian sex-determining gene Sry induces male development. Since its discovery 30 years ago, Sry has been believed to be a single-exon gene. Here, we identified a cryptic second exon of mouse Sry and a corresponding two-exon type Sry ( Sry-T ) transcript. XY mice lacking Sry-T were sex-reversed, and ectopic expression of Sry-T in XX mice induced male development. Sry-T messenger RNA is expressed similarly to that of canonical single-exon type Sry ( Sry-S ), but SRY-T protein is expressed predominantly because of the absence of a degron in the C terminus of SRY-S. Sry exon2 appears to have evolved recently in mice through acquisition of a retrotransposon-derived coding sequence to replace the degron. Our findings suggest that in nature, SRY-T, not SRY-S, is the bona fide testis-determining factor.