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Cellular and biochemical mechanisms underlying circadian rhythms in vertebrates |
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| Authors: | Martha U Gillette |
| Affiliation: | Departments of Cell and Structural Biology, Molecular and Integrative Physiology, the Neuroscience Program, and the College of Medicine, University of Illinois, B107 Chemical and Life Sciences Labs, 601 South Goodwin Avenue, Urbana, Illinois 61801, USA |
| Abstract: | Circadian clocks organize neural processes, such as motor activities, into near 24-hour oscillations and adaptively synchronize these rhythms to the solar cycle. Recently, the first mammalian clock genes have been found. Unpredicted diversity in signaling pathways and clock-controlled gating of signals that modulate timekeeping has been discovered. A diffusible clock output has been found to control some behavioral rhythms. Consensus is emerging that circadian mechanisms are conserved across phylogeny, but that mammals have developed a great complexity of controls. |
| Keywords: | Abbreviations: CLK protein product of the circadian clock gene clock CREB Ca2+/cAMP response element binding protein FRQ protein product of the clock gene frequency ICER inducible cAMP early repressor IGL intergeniculate leaflet NMDAN-methyl- font-variant: small-caps" >d-aspartate NO nitric oxide NOS NO synthase NPY neuropeptide Y PACAP pituitary adenylyl cyclase-activating peptide PER protein product of the clock gene period PKG cGMP-dependent protein kinase SCN suprachiasmatic nucleus TIM protein product of the clock gene timeless WC-2 protein found of the clock gene white collar-2 |
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