Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms

Gijsbertus T.J. Van Der Horst; Manja Muijtjens; Kumiko Kobayashi; Riya Takano; Shin Ichiro Kanno; Masashi Takao; Jan De Wit; Anton Verkerk; Andre P.M. Eker; Dik Van Leenen; Ruud Buijs; Dirk Bootsma; Jan H.J. Hoeijmakers; Akira Yasui

doi:10.1038/19323

Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms

Gijsbertus T.J. Van Der Horst, Manja Muijtjens, Kumiko Kobayashi, Riya Takano, Shin Ichiro Kanno, Masashi Takao, Jan De Wit, Anton Verkerk, Andre P.M. Eker, Dik Van Leenen, Ruud Buijs, Dirk Bootsma, Jan H.J. Hoeijmakers, Akira Yasui

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

1208 Citaten (Scopus)

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Many biochemical, physiological and behavioural processes show circadian rhythms which are generated by an internal timekeeping mechanism referred to as the biological clock. According to rapidly developing models, the core oscillator driving this clock is composed of an autoregulatory transcription- (post) translation-based feedback loop involving a set of 'clock' genes^1- ⁶. Molecular docks do not oscillate with an exact 24-hour rhythmicity but are entrained to solar day/night rhythms by light. The mammalian proteins Cry1 and Cry2, which are members of the family of plant blue-light receptors (cryptochromes) and photolyases, have been proposed as candidate light receptors for photoentrainment of the biological clock^7-10. Here we show that mice lacking the Cry1 or Cry2 protein display accelerated and delayed free-running periodicity of locomotor activity, respectively. Strikingly, in the absence of both proteins, an instantaneous and complete loss of free- running rhythmicity is observed. This suggests that, in addition to a possible photoreceptor and antagonistic clock-adjusting function, both proteins are essential for the maintenance of circadian rhythmicity.

Originele taal-2	Engels
Pagina's (van-tot)	627-630
Aantal pagina's	4
Tijdschrift	Nature
Volume	398
Nummer van het tijdschrift	6728
DOI's	https://doi.org/10.1038/19323
Status	Gepubliceerd - 15 apr. 1999
Extern gepubliceerd	Ja

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10.1038/19323

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@article{29bc97fa7e1d44a9944f7fc305acf628,

title = "Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms",

abstract = "Many biochemical, physiological and behavioural processes show circadian rhythms which are generated by an internal timekeeping mechanism referred to as the biological clock. According to rapidly developing models, the core oscillator driving this clock is composed of an autoregulatory transcription- (post) translation-based feedback loop involving a set of 'clock' genes1- 6. Molecular docks do not oscillate with an exact 24-hour rhythmicity but are entrained to solar day/night rhythms by light. The mammalian proteins Cry1 and Cry2, which are members of the family of plant blue-light receptors (cryptochromes) and photolyases, have been proposed as candidate light receptors for photoentrainment of the biological clock7-10. Here we show that mice lacking the Cry1 or Cry2 protein display accelerated and delayed free-running periodicity of locomotor activity, respectively. Strikingly, in the absence of both proteins, an instantaneous and complete loss of free- running rhythmicity is observed. This suggests that, in addition to a possible photoreceptor and antagonistic clock-adjusting function, both proteins are essential for the maintenance of circadian rhythmicity.",

author = "{Van Der Horst}, {Gijsbertus T.J.} and Manja Muijtjens and Kumiko Kobayashi and Riya Takano and Kanno, {Shin Ichiro} and Masashi Takao and {De Wit}, Jan and Anton Verkerk and Eker, {Andre P.M.} and {Van Leenen}, Dik and Ruud Buijs and Dirk Bootsma and Hoeijmakers, {Jan H.J.} and Akira Yasui",

year = "1999",

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T1 - Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms

AU - Van Der Horst, Gijsbertus T.J.

AU - Muijtjens, Manja

AU - Kobayashi, Kumiko

AU - Takano, Riya

AU - Kanno, Shin Ichiro

AU - Takao, Masashi

AU - De Wit, Jan

AU - Verkerk, Anton

AU - Eker, Andre P.M.

AU - Van Leenen, Dik

AU - Buijs, Ruud

AU - Bootsma, Dirk

AU - Hoeijmakers, Jan H.J.

AU - Yasui, Akira

PY - 1999/4/15

Y1 - 1999/4/15

N2 - Many biochemical, physiological and behavioural processes show circadian rhythms which are generated by an internal timekeeping mechanism referred to as the biological clock. According to rapidly developing models, the core oscillator driving this clock is composed of an autoregulatory transcription- (post) translation-based feedback loop involving a set of 'clock' genes1- 6. Molecular docks do not oscillate with an exact 24-hour rhythmicity but are entrained to solar day/night rhythms by light. The mammalian proteins Cry1 and Cry2, which are members of the family of plant blue-light receptors (cryptochromes) and photolyases, have been proposed as candidate light receptors for photoentrainment of the biological clock7-10. Here we show that mice lacking the Cry1 or Cry2 protein display accelerated and delayed free-running periodicity of locomotor activity, respectively. Strikingly, in the absence of both proteins, an instantaneous and complete loss of free- running rhythmicity is observed. This suggests that, in addition to a possible photoreceptor and antagonistic clock-adjusting function, both proteins are essential for the maintenance of circadian rhythmicity.

AB - Many biochemical, physiological and behavioural processes show circadian rhythms which are generated by an internal timekeeping mechanism referred to as the biological clock. According to rapidly developing models, the core oscillator driving this clock is composed of an autoregulatory transcription- (post) translation-based feedback loop involving a set of 'clock' genes1- 6. Molecular docks do not oscillate with an exact 24-hour rhythmicity but are entrained to solar day/night rhythms by light. The mammalian proteins Cry1 and Cry2, which are members of the family of plant blue-light receptors (cryptochromes) and photolyases, have been proposed as candidate light receptors for photoentrainment of the biological clock7-10. Here we show that mice lacking the Cry1 or Cry2 protein display accelerated and delayed free-running periodicity of locomotor activity, respectively. Strikingly, in the absence of both proteins, an instantaneous and complete loss of free- running rhythmicity is observed. This suggests that, in addition to a possible photoreceptor and antagonistic clock-adjusting function, both proteins are essential for the maintenance of circadian rhythmicity.

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Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms

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