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The neural basis of Drosophila gravity-sensing and hearing

Author

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  • Azusa Kamikouchi

    (Sensory Systems Laboratory, Institute of Zoology, University of Cologne
    Institute of Molecular and Cellular Biosciences, University of Tokyo, Yayoi, Bunkyo-ku, 113-0032 Tokyo, Japan
    School of Life Sciences, Tokyo University of Pharmacy and Life Sciences, 1432-1, Horinouchi, Hachioji, 192-0392 Tokyo, Japan)

  • Hidehiko K. Inagaki

    (Institute of Molecular and Cellular Biosciences, University of Tokyo, Yayoi, Bunkyo-ku, 113-0032 Tokyo, Japan
    Present address: Division of Biology 216-76, California Institute of Technology, Pasadena, California 91125, USA.)

  • Thomas Effertz

    (Sensory Systems Laboratory, Institute of Zoology, University of Cologne
    Johann-Friedrich-Blumenbach-Institute, University of Göttingen)

  • Oliver Hendrich

    (Sensory Systems Laboratory, Institute of Zoology, University of Cologne
    Johann-Friedrich-Blumenbach-Institute, University of Göttingen)

  • André Fiala

    (Johann-Friedrich-Blumenbach-Institute, University of Göttingen
    Theodor-Boveri-Institute, Julius-Maximilians-University of Würzburg, Am Hubland, 97074 Würzburg, Germany)

  • Martin C. Göpfert

    (Sensory Systems Laboratory, Institute of Zoology, University of Cologne
    Johann-Friedrich-Blumenbach-Institute, University of Göttingen)

  • Kei Ito

    (Institute of Molecular and Cellular Biosciences, University of Tokyo, Yayoi, Bunkyo-ku, 113-0032 Tokyo, Japan)

Abstract

The neural substrates that the fruitfly Drosophila uses to sense smell, taste and light share marked structural and functional similarities with ours, providing attractive models to dissect sensory stimulus processing. Here we focus on two of the remaining and less understood prime sensory modalities: graviception and hearing. We show that the fly has implemented both sensory modalities into a single system, Johnston’s organ, which houses specialized clusters of mechanosensory neurons, each of which monitors specific movements of the antenna. Gravity- and sound-sensitive neurons differ in their response characteristics, and only the latter express the candidate mechanotransducer channel NompC. The two neural subsets also differ in their central projections, feeding into neural pathways that are reminiscent of the vestibular and auditory pathways in our brain. By establishing the Drosophila counterparts of these sensory systems, our findings provide the basis for a systematic functional and molecular dissection of how different mechanosensory stimuli are detected and processed.

Suggested Citation

  • Azusa Kamikouchi & Hidehiko K. Inagaki & Thomas Effertz & Oliver Hendrich & André Fiala & Martin C. Göpfert & Kei Ito, 2009. "The neural basis of Drosophila gravity-sensing and hearing," Nature, Nature, vol. 458(7235), pages 165-171, March.
  • Handle: RePEc:nat:nature:v:458:y:2009:i:7235:d:10.1038_nature07810
    DOI: 10.1038/nature07810
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    Cited by:

    1. Samuel T. Fabian & Yash Sondhi & Pablo E. Allen & Jamie C. Theobald & Huai-Ti Lin, 2024. "Why flying insects gather at artificial light," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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