Kondoh Yasuhiro, Kaneshiro Kenneth Y, Kimura Ken-ichi, Yamamoto Daisuke
Yamamoto Behaviour Genes Project, ERATO, JST, University of Hawaii, 3050 Maile Way, 408 Gilmore, Honolulu, HI 96822, USA.
Proc Biol Sci. 2003 May 22;270(1519):1005-13. doi: 10.1098/rspb.2003.2331.
In the fruitfly, Drosophila melanogaster, mate choice during courtship depends on detecting olfactory cues, sex pheromones, which are initially processed in the antennal lobe (AL), a primary olfactory centre of the brain. However, no sexual differences in the structure of the AL have been found in Drosophila. We compared the central brain anatomy of 37 species of Drosophilidae from the islands of the Hawaiian archipelago, uncovering an extreme sexual dimorphism within the AL in which two out of the 51 identifiable glomeruli were markedly enlarged in males. A phylogeny indicated that the sexual dimorphism of the homologous glomeruli arose 0.4-1.9 Myr ago independently in two species groups of Hawaiian endemic Drosophilidae. The corresponding glomeruli in D. melanogaster were also found to be sexually dimorphic. The formation of glomeruli of male size is prevented by the ectopic expression of female-type transformer (tra) cDNA in males, indicating that the glomerular sexual dimorphism is under the control of the sex-determination cascade of genes. It is suggested that a defined set of glomeruli in Drosophila can enlarge in response to sex-determination genetic signals, the mutations of which may result in species differences in sexual dimorphism of the brain.
在果蝇(黑腹果蝇)中,求偶过程中的配偶选择取决于对嗅觉线索(性信息素)的检测,这些性信息素最初在触角叶(AL)中进行处理,触角叶是大脑的主要嗅觉中枢。然而,在果蝇中尚未发现触角叶结构存在性别差异。我们比较了来自夏威夷群岛的37种果蝇科物种的中枢脑解剖结构,发现触角叶内存在极端的性别二态性,在51个可识别的神经小球中有两个在雄性中明显增大。系统发育表明,同源神经小球的性别二态性在0.4 - 1.9百万年前在夏威夷特有果蝇科的两个物种组中独立出现。黑腹果蝇中相应的神经小球也被发现具有性别二态性。雄性中雌性型转化基因(tra)cDNA的异位表达可阻止雄性大小神经小球的形成,这表明神经小球的性别二态性受性别决定基因级联的控制。有人提出,果蝇中一组特定的神经小球可以响应性别决定遗传信号而增大,这些信号的突变可能导致大脑性别二态性的物种差异。