ライフサイエンスコーパス: ultradian rhythm

1 rhythm, but also in an approximately hourly ultradian rhythm.

2 eostatic process that exists purely to drive ultradian rhythms.

3 extended nonoscillating periods and possible ultradian rhythms.

4 ght on the presence and functions of hepatic ultradian rhythms.

5 ter details the recent literature related to ultradian rhythms.

6 r time scales and coexists with synchronized ultradian rhythms.

7 hormone system with endogenous circadian and ultradian rhythms.

8 revealed a consistent pattern of DBT and HRV ultradian rhythm (2-5 h) power that uniquely enabled ant

9 etabolic pulses are synchronized into stable ultradian rhythms across contacting cells in culture by

10 ell as the challenges related to identifying ultradian rhythm and addressing their molecular underpin

11 e in strong support of instrinsically driven ultradian rhythms and expose potential molecular mechani

12 e in strong support of instrinsically driven ultradian rhythms and expose potential molecular mechani

13 Twelve-hour (12 h) ultradian rhythms are a well-known phenomenon in coastal

14 We show that functional circadian and ultradian rhythms are diminished in pathological tissue,

15 Using the model, realistic ultradian rhythms are generated by arousal state feedbac

16 In animals, ultradian rhythms are important in many neuromuscular sy

17 These findings reveal that ultradian rhythms are integral to biological timing of m

18 Circadian and ultradian rhythms are maintained during treatment with h

19 Ultradian rhythms are thought to have an extrinsic origi

20 nes across the menstrual cycle, particularly ultradian rhythms, are well described, monitoring these

21 me series enabled simultaneous evaluation of ultradian rhythms as well as fractal organization accord

22 ue via two sutures showed the development of ultradian rhythms at approximately 5 weeks before the vi

23 sting behavioral rhythms, with circadian and ultradian rhythms at the center of the emergent pattern

24 netic analysis of heartbeat in humans and an ultradian rhythm controlling defecation in Caenorhabditi

25 s the temporal organization of circadian and ultradian rhythms, crucial for understanding biological

26 mined biorhythm-based metrics (circadian and ultradian rhythms, derived from the daily activity and h

27 The system detects ultradian rhythms, disruption of the circadian cycle, an

28 Worms exhibit social behaviors and complex ultradian rhythms driven by Ca(2+) oscillators with cloc

29 e not previously been identified as possible ultradian rhythm generators.

30 liver function, the research on the hepatic ultradian rhythms have largely been lagging behind.

31 Unmasking ultradian rhythms in gene expression.

32 vely, our results identify clock-independent ultradian rhythms in lipid metabolism that are essential

33 eport the discovery of temperature-sensitive ultradian rhythms in mammalian fibroblasts that are inde

34 Ultradian rhythms in metabolism and physiology have been

35 role meal timing plays in coordinating these ultradian rhythms in metabolism.

36 Ultradian rhythms in mouse hepatocytes in vivo have been

37 Metabolic oscillations (ultradian rhythms) in yeast are known to modulate single

38 wave activity (SWA) fluctuated with a 29-min ultradian rhythm, indicating a tendency to move systemat

39 pate the LH surge, suggesting that automated ultradian rhythm monitoring may provide a novel and conv

40 he gold standard animal model for behavioral ultradian rhythms, naturally expressing ~2-h foraging rh

41 Thus, while CRH(PVN) neurons display an ultradian rhythm of activity over the 24-h day that is c

42 mice and rats, CRH(PVN) neurons displayed an ultradian rhythm of activity with reoccurring upstates o

43 dampen the amplitude of the YRO, which is an ultradian rhythm of cell metabolism and transcription.

44 ablishes a cell-autonomous mammalian 12-hour ultradian rhythm of nuclear speckle liquid-liquid phase

45 a parsimonious explanation for the observed ultradian rhythm of REM/NREM sleep.

46 In addition to circadian and ultradian rhythms of MUA, neural activity both within an

47 emperature or sleep was replaced by a strong ultradian rhythm (period approximately 3 hr).

48 to circadian rhythms, there were significant ultradian rhythms present; one, with a period of approxi

49 equency in cardiovascular rhythms, a shorter ultradian rhythm remains.

50 Moreover, these ultradian rhythms require extracellular glutamine, sever

51 The ultradian rhythms showed correlations with variations in

52 olecular mechanisms and functions underlying ultradian rhythms that remain unknown.

53 olecular mechanisms and functions underlying ultradian rhythms that remain unknown.-Van der Veen, D.

54 In addition, the timing of an ultradian rhythm, the defecation cycle, is lengthened co

55 Unlike other models of the ultradian rhythm, this model of sleep dynamics does not

56 Here, we characterized widespread ultradian rhythms under ad libitum feeding conditions in

57 A complex dynamic ultradian rhythm underlies the hypothalamic-pituitary-ad

58 lamic arcuate nucleus independently generate ultradian rhythms (URs) in hormone secretion and behavio

59 thmicity, would compromize the generation of ultradian rhythms (URs) of locomotor activity.

60 Faster biological rhythms, called ultradian rhythms, vary widely in periodicity and are li

61 ual isolation, synchronization between these ultradian rhythms was observed.

62 The periods of these ultradian rhythms were not significantly different in wi

63 Finally, we also refer to ultradian rhythms with other frequencies and examine the

64 rs of metabolites that exhibited significant ultradian rhythms with periods different from the feedin

65 ed phosphatidylcholines) expressed an 11.9 h ultradian rhythm without co-expressed diurnal rhythmicit