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Prepontine non-giant neurons drive flexible escape behavior in zebrafish.


ABSTRACT: Many species execute ballistic escape reactions to avoid imminent danger. Despite fast reaction times, responses are often highly regulated, reflecting a trade-off between costly motor actions and perceived threat level. However, how sensory cues are integrated within premotor escape circuits remains poorly understood. Here, we show that in zebrafish, less precipitous threats elicit a delayed escape, characterized by flexible trajectories, which are driven by a cluster of 38 prepontine neurons that are completely separate from the fast escape pathway. Whereas neurons that initiate rapid escapes receive direct auditory input and drive motor neurons, input and output pathways for delayed escapes are indirect, facilitating integration of cross-modal sensory information. These results show that rapid decision-making in the escape system is enabled by parallel pathways for ballistic responses and flexible delayed actions and defines a neuronal substrate for hierarchical choice in the vertebrate nervous system.

SUBMITTER: Marquart GD 

PROVIDER: S-EPMC6793939 | biostudies-literature | 2019 Oct

REPOSITORIES: biostudies-literature

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Prepontine non-giant neurons drive flexible escape behavior in zebrafish.

Marquart Gregory D GD   Tabor Kathryn M KM   Bergeron Sadie A SA   Briggman Kevin L KL   Burgess Harold A HA  

PLoS biology 20191015 10


Many species execute ballistic escape reactions to avoid imminent danger. Despite fast reaction times, responses are often highly regulated, reflecting a trade-off between costly motor actions and perceived threat level. However, how sensory cues are integrated within premotor escape circuits remains poorly understood. Here, we show that in zebrafish, less precipitous threats elicit a delayed escape, characterized by flexible trajectories, which are driven by a cluster of 38 prepontine neurons t  ...[more]

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