CORDIS Project
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This project investigates how sensory inputs influence movement patterns in zebrafish larvae. By utilizing advanced techniques like optogenetics and imaging, it aims to understand the integration of sensory information in spinal circuits and its role in locomotion.
Although locomotion may seem effortless, it relies on spinal circuits producing extraordinarily complex patterns of muscle contractions.
Graded movements occur over a wide range of amplitudes and frequencies, instantaneously adapting to changes in the environmental or inner state.
Locomotion relies on oscillations generated by genetically determined circuits within the spine.
Sensory information flowing in the circuits selects and shapes the pattern of motor outputs by triggering, stopping or st…
INSTITUT DU CERVEAU ET DE LA MOELLE EPINIERE
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