Mice actively explore their environment by rhythmically sweeping their whiskers. As a consequence, neuronal activity in somatosensory pathways is modulated by the frequency of whisker movement. The potential role of rhythmic neuronal activity for the integration and consolidation of sensory signals, however, remains unexplored. Here, we show that a brief period of rhythmic whisker stimulation in anesthetized mice resulted in a frequency-specific long-lasting increase in the amplitude of somatosensory-evoked potentials in the contralateral primary somatosensory (barrel) cortex. Mapping of evoked potentials and intracortical recordings revealed that, in addition to potentiation in layers IV and II/III of the barrel cortex, rhythmic whisker st...
Rodents vary the frequency of whisking movements during ex-ploratory and discriminatory behaviors. T...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Enriched social and physical housing produces many molecular, anatomical, electrophysiological and b...
Rats generate sweeping whisker movements in order to explore their environments and identify objects...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
The cerebral cortex is thought to generate sensory experience and facilitate broadly integrative pro...
Rodent rhythmic whisking behavior matures during a critical period around 2 weeks after birth. The f...
Tactile information is actively acquired and processed in the brain through concerted interactions b...
In the mammalian brain, sensory cortices exhibit plasticity during task learning, but how this alter...
International audienceTactile information is actively acquired and processed in the brain through co...
The brain processes sensory information in a context- and learning-dependent manner for adaptive beh...
Rodents use rhythmic whisker movements at frequencies between 4 and 12 Hz to sense the environment t...
The rodent whisker system is a preferred model for studying plasticity in the somatosensory cortex (...
SummaryTactile information is actively acquired and processed in the brain through concerted interac...
Sensory experience can powerfully alter the spatial and temporal organization of population codes in...
Rodents vary the frequency of whisking movements during ex-ploratory and discriminatory behaviors. T...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Enriched social and physical housing produces many molecular, anatomical, electrophysiological and b...
Rats generate sweeping whisker movements in order to explore their environments and identify objects...
Active sensing, which incorporates closed-loop behavioral selection of information during sensory ac...
The cerebral cortex is thought to generate sensory experience and facilitate broadly integrative pro...
Rodent rhythmic whisking behavior matures during a critical period around 2 weeks after birth. The f...
Tactile information is actively acquired and processed in the brain through concerted interactions b...
In the mammalian brain, sensory cortices exhibit plasticity during task learning, but how this alter...
International audienceTactile information is actively acquired and processed in the brain through co...
The brain processes sensory information in a context- and learning-dependent manner for adaptive beh...
Rodents use rhythmic whisker movements at frequencies between 4 and 12 Hz to sense the environment t...
The rodent whisker system is a preferred model for studying plasticity in the somatosensory cortex (...
SummaryTactile information is actively acquired and processed in the brain through concerted interac...
Sensory experience can powerfully alter the spatial and temporal organization of population codes in...
Rodents vary the frequency of whisking movements during ex-ploratory and discriminatory behaviors. T...
Responding to a stimulus requires transforming an internal sensory representation into an internal m...
Enriched social and physical housing produces many molecular, anatomical, electrophysiological and b...