Embryological ontogeny of aromatase gene expression in Chrysemys picta and Apalone mutica turtles: comparative patterns within and across temperature-dependent and genotypic sex-determining mechanisms.

Although the role of aromatase in many estrogen-dependent reproductive and metabolic functions is well documented in vertebrates, its involvement in the ovarian development of species exhibiting temperature-dependent sex determination (TSD) is incompletely understood. This is partly due to the conflicting temporal and spatial pattern of aromatase expression and activity across taxa. To help resolve this ongoing debate, we compared for the first time the embryological ontogeny of aromatase expression in turtles possessing genotypic sex determination (GSD) (Apalone mutica) and TSD (Chrysemys picta) incubated under identical conditions. As anticipated, we found no significant thermal differences in aromatase expression at any stage examined (prior to until the end of the thermosensitive period) in A. mutica. Surprisingly, the same was true for C. picta. When placed in a phylogenetic context, our results suggest that aromatase expression is evolutionarily plastic with respect to sex determination in reptiles, and that differences between reptilian TSD and GSD are not aromatase-driven. Further research across TSD and GSD species is warranted to fully decipher the evolution of functional differences among sex-determining mechanisms.