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Connectomic reconstruction of a female Drosophila ventral nerve cord

Author

Listed:
  • Anthony Azevedo

    (University of Washington)

  • Ellen Lesser

    (University of Washington)

  • Jasper S. Phelps

    (Harvard Medical School
    Brain Mind Institute and Institute of Bioengineering, EPFL)

  • Brandon Mark

    (University of Washington)

  • Leila Elabbady

    (University of Washington)

  • Sumiya Kuroda

    (Harvard Medical School)

  • Anne Sustar

    (University of Washington)

  • Anthony Moussa

    (University of Washington)

  • Avinash Khandelwal

    (University of Washington)

  • Chris J. Dallmann

    (University of Washington)

  • Sweta Agrawal

    (University of Washington)

  • Su-Yee J. Lee

    (University of Washington)

  • Brandon Pratt

    (University of Washington)

  • Andrew Cook

    (University of Washington)

  • Kyobi Skutt-Kakaria

    (California Institute of Technology)

  • Stephan Gerhard

    (Harvard Medical School
    UniDesign Solutions)

  • Ran Lu

    (Zetta AI)

  • Nico Kemnitz

    (Zetta AI)

  • Kisuk Lee

    (Zetta AI
    Princeton University)

  • Akhilesh Halageri

    (Zetta AI)

  • Manuel Castro

    (Zetta AI)

  • Dodam Ih

    (Zetta AI)

  • Jay Gager

    (Zetta AI)

  • Marwan Tammam

    (Zetta AI)

  • Sven Dorkenwald

    (Princeton University
    Princeton University)

  • Forrest Collman

    (Allen Institute for Brain Science)

  • Casey Schneider-Mizell

    (Allen Institute for Brain Science)

  • Derrick Brittain

    (Allen Institute for Brain Science)

  • Chris S. Jordan

    (Princeton University)

  • Michael Dickinson

    (California Institute of Technology)

  • Alexandra Pacureanu

    (The European Synchrotron)

  • H. Sebastian Seung

    (Zetta AI)

  • Thomas Macrina

    (Zetta AI)

  • Wei-Chung Allen Lee

    (Harvard Medical School
    Boston Children’s Hospital, Harvard Medical School)

  • John C. Tuthill

    (University of Washington)

Abstract

A deep understanding of how the brain controls behaviour requires mapping neural circuits down to the muscles that they control. Here, we apply automated tools to segment neurons and identify synapses in an electron microscopy dataset of an adult female Drosophila melanogaster ventral nerve cord (VNC)1, which functions like the vertebrate spinal cord to sense and control the body. We find that the fly VNC contains roughly 45 million synapses and 14,600 neuronal cell bodies. To interpret the output of the connectome, we mapped the muscle targets of leg and wing motor neurons using genetic driver lines2 and X-ray holographic nanotomography3. With this motor neuron atlas, we identified neural circuits that coordinate leg and wing movements during take-off. We provide the reconstruction of VNC circuits, the motor neuron atlas and tools for programmatic and interactive access as resources to support experimental and theoretical studies of how the nervous system controls behaviour.

Suggested Citation

  • Anthony Azevedo & Ellen Lesser & Jasper S. Phelps & Brandon Mark & Leila Elabbady & Sumiya Kuroda & Anne Sustar & Anthony Moussa & Avinash Khandelwal & Chris J. Dallmann & Sweta Agrawal & Su-Yee J. Le, 2024. "Connectomic reconstruction of a female Drosophila ventral nerve cord," Nature, Nature, vol. 631(8020), pages 360-368, July.
    • Handle: RePEc:nat:nature:v:631:y:2024:i:8020:d:10.1038_s41586-024-07389-x
    DOI: 10.1038/s41586-024-07389-x
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