Experience-dependent slow-wave sleep development
Copyright policy )Experience-dependent slow-wave sleep development
Sleep enhances plasticity in neocortex, and thereby improves sensory learning. Here we show that sleep itself undergoes changes as a consequence of waking experience during a late critical period in cats and mice. Dark-rearing produced a robust and reversible decrement of slow-wave electrical activity during sleep that was restricted to visual cortex and impaired by gene-targeted reduction of NMDA receptor function.
Mice, Knockout, Aging, Neuronal Plasticity, Sensation, Dark Adaptation, Receptors, N-Methyl-D-Aspartate, Synaptic Transmission, Mice, Thalamus, Cats, Animals, Visual Pathways, Sensory Deprivation, Wakefulness, Sleep, Visual Cortex
Mice, Knockout, Aging, Neuronal Plasticity, Sensation, Dark Adaptation, Receptors, N-Methyl-D-Aspartate, Synaptic Transmission, Mice, Thalamus, Cats, Animals, Visual Pathways, Sensory Deprivation, Wakefulness, Sleep, Visual Cortex
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