Enhanced expression of tubulin-specific chaperone protein A, mitochondrial ribosomal protein S27, and the DNA excision repair protein XPACCH in the song system of juvenile male zebra finches.

Recent evidence suggests that sexual dimorphisms in the zebra finch song system and behavior arise due to factors intrinsic to the brain, rather than being solely organized by circulating steroid hormones. The present study examined expression of 10 sex chromosome genes in the song system of 25-day-old zebra finches in an attempt to further elucidate these factors. Increased expression in males was confirmed for nine of the genes by real-time qPCR using cDNA from individual whole telecephalons. In situ hybridization at the same age revealed specific, male-enhanced mRNA for three of the nine genes in one or more song control nuclei. These genes encode tubulin-specific chaperone A, mitochondrial ribosomal protein S27, and a DNA repair protein XPACCH. Based on what is currently known about these proteins' functions and their localization to particular components of the song circuit, we hypothesize that they each may be involved in specific aspects of masculinization.