Tatsunori Tazawa scite author profile

The Drosophila fruitless (fru) gene product Fru has been postulated to be a neural sex determination factor that directs development of the central nervous system (CNS), thereby producing male-typical courtship behaviour and inducing male-specific muscle. Male-specific Fru protein is expressed in small groups of neurons scattered throughout the CNS of male, but not female, Drosophila. Collectively, these observations suggest that Fru 'masculinizes' certain neurons, thereby establishing neural substrates for male-typical behaviour. However, specific differences between neurons resulting from the presence or absence of Fru are unknown. Previous studies have suggested that Fru might result in sexual differences in the CNS at the functional level, as no overt sexual dimorphism in CNS structure was discernible. Here we identify a subset of fru-expressing interneurons in the brain that show marked sexual dimorphism in their number and projection pattern. We also demonstrate that Fru supports the development of neurons with male-specific dendritic fields, which are programmed to die during female development as a result of the absence of Fru. Thus, Fru expression can produce a male-specific neural circuit, probably used during heterosexual courtship, by preventing cell death in identifiable neurons.

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Fruitless and Doublesex Coordinate to Generate Male-Specific Neurons that Can Initiate Courtship

Kimura

Hachiya

Koganezawa

et al. 2008

Neuron

287

257

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Biologists postulate that sexual dimorphism in the brain underlies gender differences in behavior, yet direct evidence for this has been sparse. We identified a male-specific, fruitless (fru)/doublesex (dsx)-coexpressing neuronal cluster, P1, in Drosophila. The artificial induction of a P1 clone in females effectively provokes male-typical behavior in such females even when the other parts of the brain are not masculinized. P1, located in the dorsal posterior brain near the mushroom body, is composed of 20 interneurons, each of which has a primary transversal neurite with extensive ramifications in the bilateral protocerebrum. P1 is fated to die in females through the action of a feminizing protein, DsxF. A masculinizing protein Fru is required in the male brain for correct positioning of the terminals of P1 neurites. Thus, the coordinated actions of two sex determination genes, dsx and fru, confer the unique ability to initiate male-typical sexual behavior on P1 neurons.

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Fruitless and Doublesex Coordinate to Generate Male-Specific Neurons that Can Initiate Courtship

Kimura¹,

Hachiya²,

Koganezawa³

et al. 2008

Neuron

132

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Fruitless specifies sexually dimorphic neural circuitry in the Drosophila brain

Kimura¹,

Tazawa²,

Hachiya³

et al. 2006

Comparative Biochemistry and Physiology Part B: Biochemistry an

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Formation of male-specific neurons in the brain of Drosophila melanogaster

Kimura

Hachiya

Tazawa

et al. 2008

Comparative Biochemistry and Physiology Part B: Biochemistry an

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