Please use this identifier to cite or link to this item: https://doi.org/10.7554/eLife.10509
Title: The cerebellum linearly encodes whisker position during voluntary movement
Authors: Chen, S 
Augustine, G.J 
Chadderton, P
Keywords: cerebellum
firing rate
kinematics
Purkinje cell
spike
synapse
vibrissa
voluntary movement
action potential
animal
C57BL mouse
cerebellum
locomotion
patch clamp technique
physiology
vibrissa
Action Potentials
Animals
Cerebellum
Locomotion
Mice, Inbred C57BL
Patch-Clamp Techniques
Purkinje Cells
Vibrissae
Issue Date: 2016
Citation: Chen, S, Augustine, G.J, Chadderton, P (2016). The cerebellum linearly encodes whisker position during voluntary movement. eLife 5 (42370) : e10509. ScholarBank@NUS Repository. https://doi.org/10.7554/eLife.10509
Abstract: Active whisking is an important model sensorimotor behavior, but the function of the cerebellum in the rodent whisker system is unknown. We have made patch clamp recordings from Purkinje cells in vivo to identify whether cerebellar output encodes kinematic features of whisking including the phase and set point. We show that Purkinje cell spiking activity changes strongly during whisking bouts. On average, the changes in simple spike rate coincide with or slightly precede movement, indicating that the synaptic drive responsible for these changes is predominantly of efferent (motor) rather than re-afferent (sensory) origin. Remarkably, on-going changes in simple spike rate provide an accurate linear read-out of whisker set point. Thus, despite receiving several hundred thousand discrete synaptic inputs across a non-linear dendritic tree, Purkinje cells integrate parallel fiber input to generate precise information about whisking kinematics through linear changes in firing rate. © Chen et al.
Source Title: eLife
URI: https://scholarbank.nus.edu.sg/handle/10635/174031
ISSN: 2050084X
DOI: 10.7554/eLife.10509
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