AI Article Synopsis
- Choosing a mate is crucial for female flies, who signal their readiness to copulate through vaginal plate opening (VPO) in response to male courtship songs.
- The neural circuitry involved in VPO includes female-specific descending neurons (vpoDNs) that receive inputs from auditory neurons sensitive to specific song features and pC1 neurons indicating female mating status.
- After mating, the responsiveness of vpoDNs to courtship songs decreases, leading to reduced receptivity in mated females, highlighting how internal and external signals are integrated to influence mating decisions in Drosophila.
Article Abstract
Choosing a mate is one of the most consequential decisions a female will make during her lifetime. A female fly signals her willingness to mate by opening her vaginal plates, allowing a courting male to copulate. Vaginal plate opening (VPO) occurs in response to the male courtship song and is dependent on the mating status of the female. How these exteroceptive (song) and interoceptive (mating status) inputs are integrated to regulate VPO remains unknown. Here we characterize the neural circuitry that implements mating decisions in the brain of female Drosophila melanogaster. We show that VPO is controlled by a pair of female-specific descending neurons (vpoDNs). The vpoDNs receive excitatory input from auditory neurons (vpoENs), which are tuned to specific features of the D. melanogaster song, and from pC1 neurons, which encode the mating status of the female. The song responses of vpoDNs, but not vpoENs, are attenuated upon mating, accounting for the reduced receptivity of mated females. This modulation is mediated by pC1 neurons. The vpoDNs thus directly integrate the external and internal signals that control the mating decisions of Drosophila females.
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| http://dx.doi.org/10.1038/s41586-020-2972-7 | DOI Listing |
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