Restoration of self-sustained circadian rhythmicity by the mutant Clock allele in mice in constant illumination

K. Spoelstra; M. Oklejewicz; S. Daan

doi:10.1177/0748730402238234

Restoration of self-sustained circadian rhythmicity by the mutant Clock allele in mice in constant illumination

K. Spoelstra^*, M. Oklejewicz, S. Daan

^*Corresponding author for this work

NIOO - Animal Ecology (AnE)

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

26 Citations (Scopus)

Abstract

Mice mutant for the Clock gene display abnormal circadian behavior characterized by long circadian periods and a tendency to become rapidly arrhythmic in constant darkness (DD). To investigate whether this result is contingent on the absence of light, the authors studied the circadian behavior of homozygous Clock mutant mice under conditions of both constant light and DD. Fourteen of 15 Clock/Clock mice stayed rhythmic in constant light of 70 to 170 lux, where 10 of 15 wild-type mice became arrhythmic. In contrast, only 5 of 15 Clock/Clock mice and 15 of 15 wild-type mice remained rhythmic after 60 cycles when released in DD (dim red light of < 1.5 lux) after 8 days of entrainment. The restoration of self-sustained rhythmicity by the Clock allele cannot be attributed to reduced sensitivity of the system to light. It underscores the fact that self-sustainment is not a secure guide to functional organization.

Original language	English
Pages (from-to)	520-525
Number of pages	6
Journal	Journal of Biological Rhythms
Volume	17
Issue number	6
DOIs	https://doi.org/10.1177/0748730402238234
Publication status	Published - 01 Dec 2002

Keywords

Circadian clock
Circadian rhythmicity
Clock
Constant illumination
Mouse mutants

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10.1177/0748730402238234

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title = "Restoration of self-sustained circadian rhythmicity by the mutant Clock allele in mice in constant illumination",

abstract = "Mice mutant for the Clock gene display abnormal circadian behavior characterized by long circadian periods and a tendency to become rapidly arrhythmic in constant darkness (DD). To investigate whether this result is contingent on the absence of light, the authors studied the circadian behavior of homozygous Clock mutant mice under conditions of both constant light and DD. Fourteen of 15 Clock/Clock mice stayed rhythmic in constant light of 70 to 170 lux, where 10 of 15 wild-type mice became arrhythmic. In contrast, only 5 of 15 Clock/Clock mice and 15 of 15 wild-type mice remained rhythmic after 60 cycles when released in DD (dim red light of < 1.5 lux) after 8 days of entrainment. The restoration of self-sustained rhythmicity by the Clock allele cannot be attributed to reduced sensitivity of the system to light. It underscores the fact that self-sustainment is not a secure guide to functional organization.",

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TY - JOUR

T1 - Restoration of self-sustained circadian rhythmicity by the mutant Clock allele in mice in constant illumination

AU - Spoelstra, K.

AU - Oklejewicz, M.

AU - Daan, S.

PY - 2002/12/1

Y1 - 2002/12/1

N2 - Mice mutant for the Clock gene display abnormal circadian behavior characterized by long circadian periods and a tendency to become rapidly arrhythmic in constant darkness (DD). To investigate whether this result is contingent on the absence of light, the authors studied the circadian behavior of homozygous Clock mutant mice under conditions of both constant light and DD. Fourteen of 15 Clock/Clock mice stayed rhythmic in constant light of 70 to 170 lux, where 10 of 15 wild-type mice became arrhythmic. In contrast, only 5 of 15 Clock/Clock mice and 15 of 15 wild-type mice remained rhythmic after 60 cycles when released in DD (dim red light of < 1.5 lux) after 8 days of entrainment. The restoration of self-sustained rhythmicity by the Clock allele cannot be attributed to reduced sensitivity of the system to light. It underscores the fact that self-sustainment is not a secure guide to functional organization.

AB - Mice mutant for the Clock gene display abnormal circadian behavior characterized by long circadian periods and a tendency to become rapidly arrhythmic in constant darkness (DD). To investigate whether this result is contingent on the absence of light, the authors studied the circadian behavior of homozygous Clock mutant mice under conditions of both constant light and DD. Fourteen of 15 Clock/Clock mice stayed rhythmic in constant light of 70 to 170 lux, where 10 of 15 wild-type mice became arrhythmic. In contrast, only 5 of 15 Clock/Clock mice and 15 of 15 wild-type mice remained rhythmic after 60 cycles when released in DD (dim red light of < 1.5 lux) after 8 days of entrainment. The restoration of self-sustained rhythmicity by the Clock allele cannot be attributed to reduced sensitivity of the system to light. It underscores the fact that self-sustainment is not a secure guide to functional organization.

KW - Circadian clock

KW - Circadian rhythmicity

KW - Clock

KW - Constant illumination

KW - Mouse mutants

U2 - 10.1177/0748730402238234

DO - 10.1177/0748730402238234

M3 - Article

C2 - 12465885

AN - SCOPUS:0042999387

SN - 0748-7304

VL - 17

SP - 520

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JO - Journal of Biological Rhythms

JF - Journal of Biological Rhythms

IS - 6

ER -

Restoration of self-sustained circadian rhythmicity by the mutant Clock allele in mice in constant illumination

Abstract

Keywords

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