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A population of descending neurons that regulates the flight motor of Drosophila

Shigehiro Namiki, Ivo G. Ros, Carmen Morrow, William J. Rowell, Gwyneth M Card, Wyatt Korff, Michael H. Dickinson

2022Current Biology80 citationsDOIOpen Access PDF

Abstract

Thus, the neural network responsible for stable flight must be capable of sustaining fine-scaled control over wing motion across a large dynamic range. In this study, we describe an unusual type of descending neuron (DNg02) that projects directly from visual output regions of the brain to the dorsal flight neuropil of the ventral nerve cord. Unlike many descending neurons, which exist as single bilateral pairs with unique morphology, there is a population of at least 15 DNg02 cell pairs with nearly identical shape. By optogenetically activating different numbers of DNg02 cells, we demonstrate that these neurons regulate wingbeat amplitude over a wide dynamic range via a population code. Using two-photon functional imaging, we show that DNg02 cells are responsive to visual motion during flight in a manner that would make them well suited to continuously regulate bilateral changes in wing kinematics. Collectively, we have identified a critical set of descending neurons that provides the sensitivity and dynamic range required for flight control.

Topics & Concepts

BiologyDrosophila (subgenus)PopulationNeuroscienceCell biologyEvolutionary biologyGeneticsGeneSociologyDemographyNeurobiology and Insect Physiology ResearchPhysiological and biochemical adaptationsInsect and Arachnid Ecology and Behavior
A population of descending neurons that regulates the flight motor of Drosophila | Litcius