Light and peptidergic eclosion hormone neurons stimulate a rapid eclosion response that masks circadian emergence inDrosophila
Copyright policy )Light and peptidergic eclosion hormone neurons stimulate a rapid eclosion response that masks circadian emergence inDrosophila
SUMMARYLight signals can entrain circadian clocks, but they can also mask aspects of the circadian output. We have analyzed the masking effects of a lights-on(LOn) signal on Drosophila eclosion. The LOn response results in 12–21% of the flies that emerge on a given day eclosing within 10 min of the LOn signal. Flies that lack the neuropeptide eclosion hormone (EH), or in which its release is inhibited by the tetanus toxin light chain, lack the response. Optic photoreceptors in both the ocelli and the compound eyes appear to be required for the response. The LOn signal has two effects: (1) it drastically reduces the interval between EH release and eclosion, presumably by suppressing a transient descending inhibition that immediately follows EH release, and (2) it stimulates premature EH release. The LOn signal does not influence the latency of wing spreading, an EH-regulated post-ecdysis behavior.
- University of Washington United States
- University of Mary United States
Male, Life Cycle Stages, Time Factors, Light, Circadian Rhythm, Tetanus Toxin, Insect Hormones, Animals, Wings, Animal, Drosophila, Female, Photoreceptor Cells, Invertebrate, Compound Eye, Arthropod, Transgenes, Signal Transduction
Male, Life Cycle Stages, Time Factors, Light, Circadian Rhythm, Tetanus Toxin, Insect Hormones, Animals, Wings, Animal, Drosophila, Female, Photoreceptor Cells, Invertebrate, Compound Eye, Arthropod, Transgenes, Signal Transduction
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