Estradiol modulates neurotransmitter concentrations in the developing zebra finch song system.

The neural song system in zebra finches is highly sexually dimorphic; only males sing and the brain regions controlling song are far larger in males than females. Estradiol (E2) administered during development can partially masculinize both structure and function. However, additional mechanisms, including those through which E2 may act, remain unclear.

Sexual differentiation of the zebra finch song system: potential roles for sex chromosome genes.

Background: Recent evidence suggests that some sex differences in brain and behavior might result from direct genetic effects, and not solely the result of the organizational effects of steroid hormones. The present study examined the potential role for sex-biased gene expression during development of sexually dimorphic singing behavior and associated song nuclei in juvenile zebra finches.

Results: A microarray screen revealed more than 2400 putative genes (with a false discovery rate less than 0.

Sexually dimorphic SCAMP1 expression in the forebrain motor pathway for song production of juvenile zebra finches.

Mechanisms regulating sexual differentiation of the zebra finch song system are not well understood. The present study was designed to more fully characterize secretory carrier membrane protein 1 (SCAMP1), which was identified in a cDNA microarray screen as showing increased expression in the forebrains of developing male compared with female zebra finches. We completed the sequence of the open reading frame and used in situ hybridization to compare mRNA in song control regions of juvenile (25-day-old) individuals.

Enhanced gene expression in the forebrain of hatchling and juvenile male zebra finches.

The molecular mechanisms regulating sexual differentiation of the brain are largely unknown, although progress is being made, particularly in some mammalian systems. To uncover more of the key factors, a screen was conducted for genes involved in sexually dimorphic development of the neural song system in zebra finches. cDNA microarrays were initially used to compare gene expression in the telencephalons of hatchling and juvenile males and females.

A cDNA microarray from the telencephalon of juvenile male and female zebra finches.

Studies over roughly the last decade have emphasized the importance of gene expression in the development of structure and function of the songbird forebrain. However, few tools have been available to efficiently identify the critical factors. To that end, we have produced a normalized cDNA library from juvenile zebra finch telencephalon, and have spotted inserts from 2400 randomly selected cDNA clones on microarrays (1664 unique sequences).

Sexually dimorphic neurocalcin expression in the developing zebra finch telencephalon.

Differential display RT-PCR was used on RNA isolated from the zebra finch telencephalon to identify gene products potentially involved in its development, including the sexually dimorphic nuclei responsible for song learning and production. A cDNA identified only in juvenile females was cloned and sequenced. It shares homology with neurocalcin, a calcium binding protein.