Mice can gather tactile sensory information by actively moving their whiskers to palpate objects in their immediate surroundings. Whisker sensory perception therefore requires integration of sensory and motor information, which occurs prominently in the neocortex. The signalling pathways from the neocortex for controlling whisker movements are currently poorly understood in mice. Here, we delineate two pathways, one originating from primary whisker somatosensory cortex (wS1) and the other from whisker motor cortex (wM1), that control qualitatively distinct movements of contralateral whiskers. Optogenetic stimulation of wS1 drove retraction of contralateral whiskers while stimulation of wM1 drove rhythmic whisker protraction. To map brainste...
Tactile sensory information from facial whiskers provides nocturnal tunnel-dwelling rodents, includi...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
The neural circuits underlying goal-directed sensorimotor transformations in the mammalian brain are...
The motor systems of the mammalian brain are a remarkable product of many millions of years of evolu...
The rodent vibrissal system offers an ideal model for studying sensory-motor pathways in the mammali...
textabstractThe rodent whisker system is widely used as a model system for investigating sensorimoto...
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...
Summary Frontal cortex plays a central role in the control of voluntary movements, which are typical...
Classical studies of mammalian movement control define a prominent role for the primary motor cortex...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Subdivisions of mouse whisker somatosensory thalamus project to cortex in a region-specific and laye...
The rodent vibrissal system offers an ideal model for studying sensory-motor pathways of the central...
In mammals, tactile information is mapped topographically onto the contralateral side of the brain i...
Exploratory "whisking" is a rhythmic motor activity that enables rodents to locate objects in their ...
Tactile sensory information from facial whiskers provides nocturnal tunnel-dwelling rodents, includi...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
The neural circuits underlying goal-directed sensorimotor transformations in the mammalian brain are...
The motor systems of the mammalian brain are a remarkable product of many millions of years of evolu...
The rodent vibrissal system offers an ideal model for studying sensory-motor pathways in the mammali...
textabstractThe rodent whisker system is widely used as a model system for investigating sensorimoto...
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...
Summary Frontal cortex plays a central role in the control of voluntary movements, which are typical...
Classical studies of mammalian movement control define a prominent role for the primary motor cortex...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Subdivisions of mouse whisker somatosensory thalamus project to cortex in a region-specific and laye...
The rodent vibrissal system offers an ideal model for studying sensory-motor pathways of the central...
In mammals, tactile information is mapped topographically onto the contralateral side of the brain i...
Exploratory "whisking" is a rhythmic motor activity that enables rodents to locate objects in their ...
Tactile sensory information from facial whiskers provides nocturnal tunnel-dwelling rodents, includi...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
The neural circuits underlying goal-directed sensorimotor transformations in the mammalian brain are...