02951nam 2200433z- 450 991026114110332120210211(CKB)4100000002484681(oapen)https://directory.doabooks.org/handle/20.500.12854/43255(oapen)doab43255(EXLCZ)99410000000248468120202102d2017 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierCircadian Rhythms and MetabolismFrontiers Media SA20171 online resource (188 p.)Frontiers Research Topics2-88945-282-4 One of the major breakthroughs of the last decade in the understanding of energy homeostasis is the identification of a reciprocal control between circadian rhythmicity and cellular metabolism. Circadian rhythmicity is a fundamental endogenous process of almost every organism living on Earth. For instance, the alternation of hunger and satiety is not continuous over 24 h, but is instead structured in time along the light/dark cycle. In mammals, the temporal organization of metabolism, physiology and behavior around 24 h is controlled by a network of multiple cellular clocks, synchronized via neuronal and hormonal signals by a master clock located in the suprachiasmatic nuclei of the hypothalamus. This central circadian conductor in the brain is mainly reset by ambient light perceived by the retina, while secondary circadian clocks in other brain areas and peripheral organs can be reset by meal timing. Chronic disruption of circadian rhythms, as seen in human shift-workers (up to 20% of the active population), has been associated with the development of a number of adverse mental and metabolic conditions. Understanding of the functional links between circadian desynchronization and overall health in animal models and humans, however, is still scarce. Interactions between circadian clocks and metabolism can occur at different levels: the molecular clockwork, internal synchronization via neuro-hormonal signals, or external synchronization via photic or feeding cues. This Research Topic comprises a number of reviews as well as research and methods articles that feature recent advancements in the mechanisms linking circadian clocks with energy metabolism, and the pathophysiological implications of these interactions for metabolic health.MedicinebicsscAlzheimercancerCircadian clockcircadian desynchronizationclock geneexercisefeedingmitochondriaMedicineEtienne Challetauth1287647Andries KalsbeekauthBOOK9910261141103321Circadian Rhythms and Metabolism3020254UNINA01864nam0 22003733i 450 PUV060351120251003044314.00072300965(solo testo)007235044X(testo con dischetto)20110228d2000 ||||0itac50 baengengusz01i xxxe z01nz01ncRDAcarrierˆAn ‰Introduction to combustionconcepts and applicationsStephen R. Turns2. edBoston (etc.)McGraw-Hillc2000XXIII, 676 p.ill.24 cm.1 floppy-disk.McGraw-Hill series in mechanical engineering001MIL00541752001 McGraw-Hill series in mechanical engineeringˆAn ‰introduction to combustionPUV3001484PUVV173200711955CombustioneFIRCFIC046876I621.402INGEGNERIA TERMICA14621.4023INGEGNERIA TERMICA. COMBUSTIBILI E COMBUSTIONE22Turns, Stephen R.PUVV17320007023237ITIT-00000020110228IT-BN0095 NAP 01SALA DING $PUV0603511Biblioteca Centralizzata di Ateneo1 v. + 1 floppy disk in tre copie 01SALA DING 621.402 TUR.in 0102 0000053575 VMA A4(ter 1 v. + 1 floppy disk (3. copia)Y 20040226201210171 v. + 1 floppy disk in tre copie 01SALA DING 621.402 TUR.in 0102 0000053585 VMA A4 1 v. + 1 floppy diskY 20040226201102281 v. + 1 floppy disk in tre copie 01SALA DING 621.402 TUR.in 0102 0000057765 VMA A4(bis 1 v. + 1 floppy disk (2. copia)Y 2005101220110228 01Introduction to combustion711955UNISANNIO