ライフサイエンスコーパス: biological rhythm

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1 ronmental stresses must allow for underlying biological rhythms.

2 ction as it relates specifically to mood and biological rhythms.

3 altered the timing of light used to entrain biological rhythms.

4 al conditions by entraining their endogenous biological rhythms.

5 rtant role in the genesis and maintenance of biological rhythms.

6 re integral components for timing endogenous biological rhythms.

7 are described as master pacemaker cells for biological rhythms.

8 on of genes involved in photo-entrainment of biological rhythms.

9 ioral effects are associated with endogenous biological rhythms.

10 ew time cues, the phase relationship between biological rhythms and external time cues are out of syn

11 The circadian system regulates 24-hour biological rhythms and seasonal rhythms, such as floweri

12 that the genes involved in the generation of biological rhythms are expressed in many brain structure

13 Daily biological rhythms are governed by an innate timekeeping

14 Biological rhythms are pervasive in nature, yet our unde

15 advanced to unravel the genetic machinery of biological rhythms by collecting massive gene-expression

16 Faster biological rhythms, called ultradian rhythms, vary widel

17 studies show that alterations in the body's biological rhythms can lead to serious pathologies, incl

18 In major depression, biological rhythm disturbances in sleep, appetite, and m

19 be used to inform the design of large-scale biological rhythm experiments so that the resulting data

20 Desynchrony of biological rhythms from environmental light cycles has d

21 tors and sex differences influence sleep and biological rhythms is central to advancing our understan

22 and gonadal steroid modulation of sleep and biological rhythms is in its infancy.

23 An important step in understanding biological rhythms is the control of period.

24 ory have contributed to our understanding of biological rhythms, learning, memory, neurodegenerative

25 ability makes the latter design suitable for biological rhythms like heartbeats and cell cycles that

26 cells are specialized cell types that drive biological rhythms like the heartbeat and intestinal per

27 dian clock to light/dark cycles ensures that biological rhythms maintain optimal phase relationships

28 temperature are powerful inputs driving the biological rhythms of conception and birth in horses, th

29 is increasing evidence showing the impact of biological rhythms on the traffic of hematopoietic stem

30 illumination and temperature, these internal biological rhythms persist with a period close to 1 day

31 cues such as photoperiod ensures that daily biological rhythms stay in synchronization with the Eart

32 GnRH is released from these terminals with biological rhythms that are critical for the maintenance

33 abitats in the intertidal zone often display biological rhythms that coordinate with both the tidal a

34 tory for the synchronization of an important biological rhythm, the female estrous cycle.

35 n clock provides robust, approximately 24 hr biological rhythms throughout the eukaryotes.

36 circannual clock [1], and synchronization of biological rhythms to the sidereal year using day length

37 ntrolling separate functions that range from biological rhythm via circadian photoentrainment, to pro

38 often exhibit a loss of regulation of their biological rhythms which leads to altered sleep/wake cyc

39 We suggest here that a biological rhythm with a period greater than the circadi

40 tonomous oscillator that produces endogenous biological rhythms with a period of about 24 h.

41 Biological rhythms with periods of less than a day are p

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