Fujii Shinsuke, Amrein Hubert
Department of Molecular Genetics and Microbiology, Duke University Medical Center, 252 CARL Bldg/Research Drive, Durham, NC 27710, USA.
EMBO J. 2002 Oct 15;21(20):5353-63. doi: 10.1093/emboj/cdf556.
The downstream effectors of the Drosophila sex determination cascade are mostly unknown and thought to mediate all aspects of sexual differentiation, physiology and behavior. Here, we employed serial analysis of gene expression (SAGE) to identify male and female effectors expressed in the head, and report 46 sex-biased genes (>4-fold/P < 0.01). We characterized four novel, male- or female-specific genes and found that all are expressed mainly in the fat cells in the head. Tsx (turn on sex-specificity), sxe1 and sxe2 (sex-specific enzyme 1/2) are expressed in males, but not females, and are dependent on the known sex determination pathway, specifically transformer (tra) and its downstream target doublesex (dsx). Female-specific expression of the fourth gene, fit (female-specific independent of transformer), is not controlled by tra and dsx, suggesting an alternative pathway for the regulation of some effector genes. Our results indicate that fat cells in the head express sex-specific effectors, thereby generating distinct physiological conditions in the male and female head. We suggest that these differences have consequences on the male and female brain by modulating sex-specific neuronal processes.
果蝇性别决定级联反应的下游效应因子大多未知,人们认为它们介导了性别分化、生理和行为的各个方面。在此,我们运用基因表达序列分析(SAGE)来鉴定在头部表达的雄性和雌性效应因子,并报告了46个性别偏向基因(>4倍/P < 0.01)。我们对四个新的、雄性或雌性特异性基因进行了表征,发现它们都主要在头部的脂肪细胞中表达。Tsx(开启性别特异性)、sxe1和sxe2(性别特异性酶1/2)在雄性而非雌性中表达,并且依赖于已知的性别决定途径,特别是transformer(tra)及其下游靶标doublesex(dsx)。第四个基因fit(独立于transformer的雌性特异性)的雌性特异性表达不受tra和dsx的控制,这表明存在调控某些效应因子基因的替代途径。我们的结果表明,头部的脂肪细胞表达性别特异性效应因子,从而在雄性和雌性头部产生不同的生理状态。我们认为这些差异通过调节性别特异性神经元过程对雄性和雌性大脑产生影响。