Regnier
Michael
Regnier
Michael
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ArticleA complete biomechanical model of Hydra contractile behaviors, from neural drive to muscle to movement(National Academy of Sciences, 2023-03-14) Wang, Hengji ; Swore, Joshua ; Sharma, Shashank ; Szymanski, John R. ; Yuste, Rafael ; Daniel, Thomas L. ; Regnier, Michael ; Bosma, Martha M. ; Fairhall, Adrienne L.How does neural activity drive muscles to produce behavior? The recent development of genetic lines inthat allow complete calcium imaging of both neuronal and muscle activity, as well as systematic machine learning quantification of behaviors, makes this small cnidarian an ideal model system to understand and model the complete transformation from neural firing to body movements. To achieve this, we have built a neuromechanical model of's fluid-filled hydrostatic skeleton, showing how drive by neuronal activity activates distinct patterns of muscle activity and body column biomechanics. Our model is based on experimental measurements of neuronal and muscle activity and assumes gap junctional coupling among muscle cells and calcium-dependent force generation by muscles. With these assumptions, we can robustly reproduce a basic set of's behaviors. We can further explain puzzling experimental observations, including the dual timescale kinetics observed in muscle activation and the engagement of ectodermal and endodermal muscles in different behaviors. This work delineates the spatiotemporal control space of movement and can serve as a template for future efforts to systematically decipher the transformations in the neural basis of behavior.