The neural circuits underlying goal-directed sensorimotor transformations in the mammalian brain are incompletely understood. Here, we compared the role of primary tongue-jaw motor cortex (tjM1) and primary whisker sensory cortex (wS1) in head-restrained mice trained to lick a reward spout in response to whisker deflection. Two-photon microscopy combined with microprisms allowed imaging of neuronal network activity across cortical layers in transgenic mice expressing a genetically encoded calcium indicator. Early-phase activity in wS1 encoded the whisker sensory stimulus and was necessary for detection of whisker stimuli. Activity in tjM1 encoded licking direction during task execution and was necessary for contralateral licking. Pre-stimul...
SummarySensory processing in neocortex is primarily driven by glutamatergic excitation, which is cou...
Neocortical sensory areas have associated primary and secondary thalamic nuclei. While primary nucle...
Each primary sensory cortex gets input from corresponding primary and secondary thalamic nuclei. Whi...
The brain processes sensory information in a context- and learning-dependent manner for adaptive beh...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Animals can learn to use sensory stimuli to generate motor actions in order to obtain rewards. Howev...
In our everyday lives, we receive information from our environment and respond to this received info...
The neuronal mechanisms generating a delayed motor response initiated by a sensory cue remain elusiv...
In the mammalian brain, sensory cortices exhibit plasticity during task learning, but how this alter...
SummaryGoal-directed sensorimotor transformation drives important aspects of mammalian behavior. The...
A fundamental task frequently encountered by brains is to rapidly and reliably discriminate between ...
A learned sensory-motor behavior engages multiple brain regions, including the neocortex and the bas...
Mice can gather tactile sensory information by actively moving their whiskers to palpate objects in ...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
155 pagesMotor sequences are constructed from primitives, hypothesized building blocks of movement, ...
SummarySensory processing in neocortex is primarily driven by glutamatergic excitation, which is cou...
Neocortical sensory areas have associated primary and secondary thalamic nuclei. While primary nucle...
Each primary sensory cortex gets input from corresponding primary and secondary thalamic nuclei. Whi...
The brain processes sensory information in a context- and learning-dependent manner for adaptive beh...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Animals can learn to use sensory stimuli to generate motor actions in order to obtain rewards. Howev...
In our everyday lives, we receive information from our environment and respond to this received info...
The neuronal mechanisms generating a delayed motor response initiated by a sensory cue remain elusiv...
In the mammalian brain, sensory cortices exhibit plasticity during task learning, but how this alter...
SummaryGoal-directed sensorimotor transformation drives important aspects of mammalian behavior. The...
A fundamental task frequently encountered by brains is to rapidly and reliably discriminate between ...
A learned sensory-motor behavior engages multiple brain regions, including the neocortex and the bas...
Mice can gather tactile sensory information by actively moving their whiskers to palpate objects in ...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
155 pagesMotor sequences are constructed from primitives, hypothesized building blocks of movement, ...
SummarySensory processing in neocortex is primarily driven by glutamatergic excitation, which is cou...
Neocortical sensory areas have associated primary and secondary thalamic nuclei. While primary nucle...
Each primary sensory cortex gets input from corresponding primary and secondary thalamic nuclei. Whi...