Sexual Dimorphism of Body Size Is Controlled by Dosage of theX-Chromosomal GeneMycand by the Sex-Determining GenetrainDrosophila

Drosophila females are larger than males. In this article, we describe how X -chromosome dosage drives sexual dimorphism of body size through two means: first, through unbalanced expression of a key X -linked growth-regulating gene, and second, through female-specific activation of the sex-determination pathway. X -chromosome dosage determines phenotypic sex by regulating the genes of the sex-determining pathway. In the presence of two sets of X -chromosome signal elements (XSEs), Sex-lethal ( Sxl ) is activated in female ( XX ) but not male ( XY ) animals. Sxl activates transformer ( tra ), a gene that encodes a splicing factor essential for female-specific development. It has previously been shown that null mutations in the tra gene result in only a partial reduction of body size of XX animals, which shows that other factors must contribute to size determination. We tested whether X dosage directly affects animal size by analyzing males with duplications of X -chromosomal segments. Upon tiling across the X chromosome, we found four duplications that increase male size by >9%. Within these, we identified several genes that promote growth as a result of duplication. Only one of these, Myc , was found not to be dosage compensated. Together, our results indicate that both Myc dosage and tra expression play crucial roles in determining sex-specific size in Drosophila larvae and adult tissue. Since Myc also acts as an XSE that contributes to tra activation in early development, a double dose of Myc in females serves at least twice in development to promote sexual size dimorphism.