SummarySpontaneous and sensory-evoked cortical activity is highly state-dependent, yet relatively little is known about transitions between distinct waking states. Patterns of activity in mouse V1 differ dramatically between quiescence and locomotion, but this difference could be explained by either motor feedback or a change in arousal levels. We recorded single cells and local field potentials from area V1 in mice head-fixed on a running wheel and monitored pupil diameter to assay arousal. Using naturally occurring and induced state transitions, we dissociated arousal and locomotion effects in V1. Arousal suppressed spontaneous firing and strongly altered the temporal patterning of population activity. Moreover, heightened arousal increas...
The awake brain of an animal is constantly fluctuating between states, causing performance on a give...
Sensory processing is dependent upon behavioral state. In mice, locomotion is accompanied by changes...
The brain is never truly silent – up to 80% of its energy budget is expended during ongoing activity...
SummaryThe brain’s response to sensory input is strikingly modulated by behavioral state. Notably, t...
SummarySensory processing is dependent upon behavioral state. In mice, locomotion is accompanied by ...
Neurons in mouse V1 increase their response to visual stimulation during locomotion. In this issue o...
SummaryBackgroundNeural responses in visual cortex depend not only on sensory input but also on beha...
SummaryThe processing of sensory information varies widely across behavioral states. However, little...
SummaryStudies of visual processing in rodents have conventionally been performed on anesthetized an...
Neurons in mouse primary visual cortex (V1) are selective for particular properties of visual stimul...
Summary: Changes in arousal modulate the activity of mouse sensory cortex, but studies in different ...
Visual cortical neurons fire at higher rates to visual stimuli during locomotion than during immobil...
Sensory processing is influenced by cognitive and behavioral states, but how these states interact t...
During locomotion, visual cortical neurons fire at higher rates to visual stimuli than during immobi...
The brain’s response to sensory input is strikingly modulated by behavioral state. Notably, the visu...
The awake brain of an animal is constantly fluctuating between states, causing performance on a give...
Sensory processing is dependent upon behavioral state. In mice, locomotion is accompanied by changes...
The brain is never truly silent – up to 80% of its energy budget is expended during ongoing activity...
SummaryThe brain’s response to sensory input is strikingly modulated by behavioral state. Notably, t...
SummarySensory processing is dependent upon behavioral state. In mice, locomotion is accompanied by ...
Neurons in mouse V1 increase their response to visual stimulation during locomotion. In this issue o...
SummaryBackgroundNeural responses in visual cortex depend not only on sensory input but also on beha...
SummaryThe processing of sensory information varies widely across behavioral states. However, little...
SummaryStudies of visual processing in rodents have conventionally been performed on anesthetized an...
Neurons in mouse primary visual cortex (V1) are selective for particular properties of visual stimul...
Summary: Changes in arousal modulate the activity of mouse sensory cortex, but studies in different ...
Visual cortical neurons fire at higher rates to visual stimuli during locomotion than during immobil...
Sensory processing is influenced by cognitive and behavioral states, but how these states interact t...
During locomotion, visual cortical neurons fire at higher rates to visual stimuli than during immobi...
The brain’s response to sensory input is strikingly modulated by behavioral state. Notably, the visu...
The awake brain of an animal is constantly fluctuating between states, causing performance on a give...
Sensory processing is dependent upon behavioral state. In mice, locomotion is accompanied by changes...
The brain is never truly silent – up to 80% of its energy budget is expended during ongoing activity...