Fruit fly locomotion
This image from the laboratory of Salil Bidaye, Research Group Leader, Max Planck Florida Institute for Neuroscience, Jupiter, Fla., pinpoints some of his work on fruit fly locomotion.

Neuroscientist to Explain Fruit Fly Locomotion

Neuroscientist Salil Bidaye, Research Group Leader, Max Planck Florida Institute for Neuroscience
Neuroscientist Salil Bidaye, Research Group Leader, Max Planck Florida Institute for Neuroscience

Neuroscientist Salil Bidaye, Research Group Leader, Max Planck Florida Institute for Neuroscience, Jupiter, Fla., will discuss his research on fruit fly locomotion when he presents a UC Davis Department of Entomology and Nematology seminar on Monday, March 4.

His seminar, titled "How Flies Control How They Walk by Knowing When and How to Stop," begins at 4:10 p.m. in 122 Briggs Hall, and also will be on Zoom. The Zoom link: https://ucdavis.zoom.us/j/95882849672.

Molecular geneticist and physiologist Joanna Chiu, professor and chair, UC Davis Department of Entomology and Nematology, is the host.

"Walking is a complex motor program involving coordinated and distributed activity across the brain and the spinal cord," Bidaye writes in his abstract. "Halting appropriately at the correct time is a critical but often overlooked component of walking control. While recent studies have delineated specific genetically defined neuronal populations in the mouse brainstem that drive different types of halting, the underlying neural circuit mechanisms responsible for overruling the competing walking-state neural activity to generate context-appropriate halting, remain unclear. Here, we elucidate two fundamental mechanisms by which I implement context-appropriate halting."

Brake Neurons. "The first mechanism ('walk-OFF' mechanism) relies on GABAergic neurons that inhibit specific descending walking commands in the brain, while the second mechanism ('brake' mechanism) relies on excitatory cholinergic neurons in the nerve-cord that lead to an active arrest of stepping movements," he explains. "Using connectome-informed models and functional studies, we show that two neuronal types that deploy the 'walk-OFF' mechanism inhibit distinct populations of walking-promotion neurons, leading to differential halting of forward-walking or steering. The 'brake' neurons on the other hand, override all walking commands by simultaneously inhibiting descending walking promoting pathways and increasing the resistance at the leg-joints leading to an arrest of leg movements in the stance phase of walking. We characterized two ethologically relevant behavioral contexts in which the distinct halting mechanisms were used by the animal in a mutually exclusive manner: the 'walk-OFF' pathway was engaged for halting during feeding, and the 'brake' pathway was engaged for halting during grooming. To our knowledge, this represents the first mechanistic understanding of halting in fruit-flies and hence a major step in our larger goal of uncovering the fundamental principles governing walking control in animals."

Ph.D. in Austria. The research group ieader since April 2021, Bidaye previously served as a postdoctoral Fellow at UC Berkeley in the lab of Professor Kristin Scott. He obtained his Ph.D. at the Research Institute of Molecular Pathology, Vienna, Austria, working in the Barry Dickson laboratory. 

While a graduate student in Vienna, "I observed fruit-flies chasing each other during courtship," he relates. "I got hooked on to the intricate control that comprises insect walking. "This fascination kindled by powerful fly genetic tools, has led me to persistently device new behavioral assays and neural recording techniques, aimed at elucidating the fundamental control mechanisms that underlie the exquisite locomotor control that is commonplace in all animals."

His publications include: 

March 11th Seminar Canceled. The final seminar of the winter quarter (March 11 by Inga Zasada, a research plant pathologist with the USDA-ARS Horticultural Crops Research Laboratory, Corvallis, Ore.) is canceled due to a medical issue in the family.

For any Zoom technical issues, contact seminar coordinator Brian Johnson, associate professor, at brnjohnson@ucdavis.edu. The list of winter quarter seminars is here.

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