Perceptual decisions involve distributed cortical activity. Does information flow sequentially from one cortical area to another, or do networks of interconnected areas contribute at the same time? Here we delineate when and how activity in specific areas drives a whisker-based decision in mice. A short-term memory component temporally separated tactile “sensation” and “action” (licking). Using optogenetic inhibition (spatial resolution, 2 mm; temporal resolution, 100 ms), we surveyed the neocortex for regions driving behavior during specific behavioral epochs. Barrel cortex was critical for sensation. During the short-term memory, unilateral inhibition of anterior lateral motor cortex biased responses to the ipsilateral side. Consistently,...
The neuronal mechanisms generating a delayed motor response initiated by a sensory cue remain elusiv...
Correlates of sensory stimuli and motor actions are found in multiple cortical areas, but such corre...
International audienceThe ability of the mammalian central nervous system to constantly adapt motor ...
SummaryPerceptual decisions involve distributed cortical activity. Does information flow sequentiall...
The brain transforms physical sensory stimuli into meaningful perceptions. In animals making choices...
Perceptual decisions involve a complex interaction of several brain areas. The neocortex is thought ...
Tactile information is actively acquired and processed in the brain through concerted interactions b...
International audienceTactile information is actively acquired and processed in the brain through co...
A fundamental task frequently encountered by brains is to rapidly and reliably discriminate between ...
How the brain is able to transform sensory input into decisions remains unknown. Understanding the n...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
International audienceWhisker-guided decision making in mice is thought to critically depend on info...
How sensory evidence is transformed across multiple brain regions to influence behavior remains poor...
During active tactile exploration, the dynamic patterns of touch are transduced to electrical signal...
The neuronal mechanisms generating a delayed motor response initiated by a sensory cue remain elusiv...
Correlates of sensory stimuli and motor actions are found in multiple cortical areas, but such corre...
International audienceThe ability of the mammalian central nervous system to constantly adapt motor ...
SummaryPerceptual decisions involve distributed cortical activity. Does information flow sequentiall...
The brain transforms physical sensory stimuli into meaningful perceptions. In animals making choices...
Perceptual decisions involve a complex interaction of several brain areas. The neocortex is thought ...
Tactile information is actively acquired and processed in the brain through concerted interactions b...
International audienceTactile information is actively acquired and processed in the brain through co...
A fundamental task frequently encountered by brains is to rapidly and reliably discriminate between ...
How the brain is able to transform sensory input into decisions remains unknown. Understanding the n...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
International audienceWhisker-guided decision making in mice is thought to critically depend on info...
How sensory evidence is transformed across multiple brain regions to influence behavior remains poor...
During active tactile exploration, the dynamic patterns of touch are transduced to electrical signal...
The neuronal mechanisms generating a delayed motor response initiated by a sensory cue remain elusiv...
Correlates of sensory stimuli and motor actions are found in multiple cortical areas, but such corre...
International audienceThe ability of the mammalian central nervous system to constantly adapt motor ...