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Journal home Current Issue Advance Online Publication Archive Online sample issue FREE! Author index Keyword index For authors Editorial Board Instructions for authors Aims and scope Indexed in Author queries Online Submission Customer Services Subscription information Journal prices Order sample issue Purchase articles, reprints & permissions Advertising Contact NPG		Original Article Neuropsychopharmacology (2001) 25 S28-S35.10.1038/S0893-133X(01)00322-0 Modulation of Brain Gene Expression during Sleep and Wakefulness: A Review of Recent Findings Giulio Tononi MD, Ph.D and Chiara Cirelli MD, Ph.D The Neurosciences Institute, 10640 John J. Hopkins Drive, San Diego, CA 92121 USA Correspondence: Dr Chiara Cirelli, Department of Psychiatry, U of Wisconsin at Madison, 6001 Research Park Boulevard, Madison, WI 53719, E-mail: ccirelli@med.wisc.edu ABSTRACT The characterization of the molecular correlates of sleep and wakefulness is essential to understand the restorative processes occurring during sleep and the cellular mechanisms underlying sleep regulation. In order to determine what molecular changes occur during the sleep-waking cycle, we have recently performed a systematic screening of gene expression in the brain of sleeping, sleep deprived, and spontaneously awake rats. Out of the ~10,000 genes screened so far, a small minority (~0.5%) was differentially expressed in the cerebral cortex across behavioral states. Most genes were upregulated in wakefulness and sleep deprivation relative to sleep, while only a few were upregulated in sleep relative to wakefulness and sleep deprivation. Almost all the genes upregulated in sleep, and several genes upregulated in wakefulness and sleep deprivation, did not match any known sequence. Known genes expressed at higher levels in wakefulness and sleep deprivation could be grouped into functional categories: immediate early genes/transcription factors, genes related to energy metabolism, growth factors/adhesion molecules, chaperones/heat shock proteins, vesicle and synapse-related genes, neurotransmitter/hormone receptors, neurotransmitter transporters, enzymes, and others. Although the characterization of the molecular correlates of sleep, wakefulness, and sleep deprivation is still in progress, it is already apparent that the transition from sleep to waking can affect basic cellular functions such as RNA and protein synthesis, neural plasticity, neurotransmission, and metabolism. Keywords: Sleep deprivation; Microarray; Differential display   top		Article Links  Send to a friend  Download PDF  Full Text   Next Article   Previous Article   Table of Contents
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