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Whole-organism behavioral profiling reveals a role for dopamine in state-dependent motor program coupling in C. elegans

Nathan Cermak, Stephanie Yu, Rebekah Clark, Yung-Chi Huang, Saba Baskoylu, Steven W. Flavell

2020eLife92 citationsDOIOpen Access PDF

Abstract

Animal behaviors are commonly organized into long-lasting states that coordinately impact the generation of diverse motor outputs such as feeding, locomotion, and grooming. However, the neural mechanisms that coordinate these distinct motor programs remain poorly understood. Here, we examine how the distinct motor programs of the nematode C. elegans are coupled together across behavioral states. We describe a new imaging platform that permits automated, simultaneous quantification of each of the main C. elegans motor programs over hours or days. Analysis of these whole-organism behavioral profiles shows that the motor programs coordinately change as animals switch behavioral states. Utilizing genetics, optogenetics, and calcium imaging, we identify a new role for dopamine in coupling locomotion and egg-laying together across states. These results provide new insights into how the diverse motor programs throughout an organism are coordinated and suggest that neuromodulators like dopamine can couple motor circuits together in a state-dependent manner.

Topics & Concepts

Caenorhabditis elegansOptogeneticsNeuroscienceOrganismMotor behaviorBiologyModel organismMotor coordinationDopamineMotor systemMotor controlGeneticsGeneGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatoninPhotoreceptor and optogenetics research
Whole-organism behavioral profiling reveals a role for dopamine in state-dependent motor program coupling in C. elegans | Litcius