669 results on '"Honma, Sato"'
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2. The association between irregularity in sleep-wake rhythm and CPAP adherence
3. Sleep-wake cycles in Humans
4. A critical role of Ca2+/calmodulin‐dependent protein kinase II in coupling between evening and morning circadian oscillators in the suprachiasmatic nucleus.
5. Rotigotine is effective for depressive symptoms accompanying periodic limb movement disorder or restless legs syndrome
6. Irregularity in sleep-wake rhythm affects CPAP adherence
7. Two oscillatory components detected by forced splitting of the sleep-wake cycle in humans
8. The Suprachiasmatic Nucleus at 50: Looking Back, Then Looking Forward.
9. Differential responses to artificial photoperiods of the rising and falling phases of human melatonin rhythm are consistent with a dual oscillator hypothesis
10. Ultradian calcium rhythms in the paraventricular nucleus and subparaventricular zone in the hypothalamus
11. CHRONO and DEC1/DEC2 compensate for lack of CRY1/CRY2 in expression of coherent circadian rhythm but not in generation of circadian oscillation in the neonatal mouse SCN
12. A novel method for measurements of sleep/wake states, feeding and drinking behaviors using the tracking technique of 3D positions in freely moving mice
13. Molecular-Timetable Methods for Detection of Body Time and Rhythm Disorders from Single-Time-Point Genome-Wide Expression Profiles
14. Dissociation of Per1 and Bmal1 circadian rhythms in the suprachiasmatic nucleus in parallel with behavioral outputs
15. Synchronous circadian voltage rhythms with asynchronous calcium rhythms in the suprachiasmatic nucleus
16. Circadian rhythms in Per1, PER2 and Ca2+ of a solitary SCN neuron cultured on a microisland
17. Role of GABA in the regulation of the central circadian clock of the suprachiasmatic nucleus
18. The mammalian circadian system: a hierarchical multi-oscillator structure for generating circadian rhythm
19. Dec1 and CLOCK Regulate Na+/K+-ATPase β1 Subunit Expression and Blood Pressure
20. GABA in the suprachiasmatic nucleus refines circadian output rhythms in mice
21. Two coupled circadian oscillations regulate Bmal1-ELuc and Per2-SLR2 expression in the mouse suprachiasmatic nucleus
22. Oscillator Cell Networks in the Hypothalamic Suprachiasmatic Nucleus, the Mammalian Circadian Clock
23. A fixed single meal in the subjective day prevents free-running of the human sleep-wake cycle but not of the circadian pacemaker under temporal isolation
24. Bioluminescent Imaging for Assessing Heterogeneous Cell Functions in the Mammalian Central Circadian Clock
25. Maternal Deprivation in Neonatal Period and Biological Rhythms
26. Monitoring the Clock Neuron’s Tick: Circadian Rhythm Analysis Using a Multi-Electrode Array Dish
27. Topological specificity and hierarchical network of the circadian calcium rhythm in the suprachiasmatic nucleus
28. Human blood metabolite timetable indicates internal body time
29. Feedback from Sleep—Wake Rhythm onto the Circadian Pacemaker in Humans
30. Separate Oscillating Cell Groups in Mouse Suprachiasmatic Nucleus Couple Photoperiodically to the Onset and End of Daily Activity
31. Corrigendum: Roles of Neuropeptides, VIP and AVP, in the Mammalian Central Circadian Clock
32. The Food-entrainable Oscillator Is a Complex of Non-SCN Activity Bout Oscillators Uncoupled From the SCN Circadian Pacemaker
33. Mistimed wheel running interferes with re-entrainment of circadian Per1 rhythms in the mouse skeletal muscle and lung
34. Disruption of MeCP2 attenuates circadian rhythm in CRISPR/Cas9-based Rett syndrome model mouse
35. Circadian PER2::LUC rhythms in the olfactory bulb of freely moving mice depend on the suprachiasmatic nucleus but not on behaviour rhythms
36. Spatiotemporal profiles of arginine vasopressin transcription in cultured suprachiasmatic nucleus
37. Glucocorticoids Reset the Nasal Circadian Clock in Mice
38. Phase Gradients and Anisotropy of the Suprachiasmatic Network: Discovery of Phaseoids
39. Chemical Control of Mammalian Circadian Behavior through Dual Inhibition of Casein Kinase Iα and δ
40. Two Distinct Oscillators in the Rat Suprachiasmatic Nucleus in vitro
41. sj-pdf-1-jbr-10.1177_07487304211047937 – Supplemental material for The Food-entrainable Oscillator Is a Complex of Non-SCN Activity Bout Oscillators Uncoupled From the SCN Circadian Pacemaker
42. Roles of Neuropeptides, VIP and AVP, in the Mammalian Central Circadian Clock
43. Physical exercise accelerates reentrainment of human sleep-wake cycle but not of plasma melatonin rhythm to 8-h phase-advanced sleep schedule
44. Abstracts for the 6th Congress of Asian Sleep Research Society
45. Dual regulation of clock gene Per2 expression in discrete brain areas by the circadian pacemaker and methamphetamine-induced oscillator in rats
46. Clock mechanisms for seasonal adaptation: Morning and evening oscillators in the suprachiasmatic nucleus
47. Phase Gradients and Anisotropy of the Suprachiasmatic Network
48. Circadian behavioral rhythms in Cry1/Cry2 double-deficient mice induced by methamphetamine
49. Methamphetamine induces circadian oscillation in the brain outside the suprachiasmatic nucleus in rats
50. Effects of physical exercise on human circadian rhythms
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