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Multilevel regulation of the circadian clock
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scholarly article
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
review article
1 reference
stated in
Europe PubMed Central
title
Multilevel regulation of the circadian clock
(English)
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
main subject
circadian rhythm
0 references
author
Nicolas Cermakian
series ordinal
1
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
Paolo Sassone-Corsi
series ordinal
2
object named as
Sassone-Corsi P
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
publication date
1 October 2000
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
published in
Nature Reviews Molecular Cell Biology
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
volume
1
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
page(s)
59-67
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
issue
1
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
exact match
https://scigraph.springernature.com/pub.10.1038/35036078
0 references
cites work
Evolution of circadian organization in vertebrates
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Temporal organization: reflections of a Darwinian clock-watcher
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Central clocking
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Suprachiasmatic nucleus organization
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Molecular bases for circadian clocks
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Clock Mutants of Drosophila melanogaster
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Positional cloning of the mouse circadian clock gene
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Positional syntenic cloning and functional characterization of the mammalian circadian mutation tau.
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The basic-helix-loop-helix-PAS orphan MOP3 forms transcriptionally active complexes with circadian and hypoxia factors
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Role of the CLOCK protein in the mammalian circadian mechanism
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CRY, a Drosophila clock and light-regulated cryptochrome, is a major contributor to circadian rhythm resetting and photosensitivity
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The cryb mutation identifies cryptochrome as a circadian photoreceptor in Drosophila.
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Clocks, criteria and critical genes
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Closing the circadian loop: CLOCK-induced transcription of its own inhibitors per and tim.
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mCRY1 and mCRY2 are essential components of the negative limb of the circadian clock feedback loop
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PER and TIM inhibit the DNA binding activity of a Drosophila CLOCK-CYC/dBMAL1 heterodimer without disrupting formation of the heterodimer: a basis for circadian transcription
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A molecular mechanism regulating rhythmic output from the suprachiasmatic circadian clock
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Light-dependent sequestration of TIMELESS by CRYPTOCHROME
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A TIMELESS-independent function for PERIOD proteins in the Drosophila clock
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Light-independent role of CRY1 and CRY2 in the mammalian circadian clock.
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Interacting molecular loops in the mammalian circadian clock
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7 January 2021
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Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms
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Asynchronous oscillations of two zebrafish CLOCK partners reveal differential clock control and function
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The basic helix-loop-helix-PAS protein MOP9 is a brain-specific heterodimeric partner of circadian and hypoxia factors
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A time-less function for mouse timeless
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7 January 2021
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inferred from DOI database lookup
Interlocked Feedback Loops Within the Drosophila Circadian Oscillator
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Circadian regulation of a Drosophila homolog of the mammalian Clock gene: PER and TIM function as positive regulators
1 reference
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Crossref
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Antiphase circadian expression between BMAL1 and period homologue mRNA in the suprachiasmatic nucleus and peripheral tissues of rats
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inferred from DOI database lookup
dCLOCK is present in limiting amounts and likely mediates daily interactions between the dCLOCK-CYC transcription factor and the PER-TIM complex
1 reference
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Interconnected feedback loops in the Neurospora circadian system
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Circadian clocks: A cry in the dark?
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Sex-linked period genes in the silkmoth, Antheraea pernyi: implications for circadian clock regulation and the evolution of sex chromosomes
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Resetting the biological clock: mediation of nocturnal circadian shifts by glutamate and NO
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Photic and circadian regulation of c-fos gene expression in the hamster suprachiasmatic nucleus.
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Crossref
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A screen for genes induced in the suprachiasmatic nucleus by light
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Crossref
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A differential response of two putative mammalian circadian regulators, mper1 and mper2, to light.
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Crossref
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Two period homologs: circadian expression and photic regulation in the suprachiasmatic nuclei.
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Inhibition of light- or glutamate-induced mPer1 expression represses the phase shifts into the mouse circadian locomotor and suprachiasmatic firing rhythms
1 reference
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Crossref
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7 January 2021
based on heuristic
inferred from DOI database lookup
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1 reference
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7 January 2021
based on heuristic
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Regulation of CREB phosphorylation in the suprachiasmatic nucleus by light and a circadian clock
1 reference
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7 January 2021
based on heuristic
inferred from DOI database lookup
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1 reference
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Crossref
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7 January 2021
based on heuristic
inferred from DOI database lookup
The Drosophila dCREB2 gene affects the circadian clock.
1 reference
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7 January 2021
based on heuristic
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Signaling routes to CREM and CREB: plasticity in transcriptional activation.
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7 January 2021
based on heuristic
inferred from DOI database lookup
Light and circadian rhythmicity regulate MAP kinase activation in the suprachiasmatic nuclei.
1 reference
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Crossref
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7 January 2021
based on heuristic
inferred from DOI database lookup
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1 reference
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Crossref
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7 January 2021
based on heuristic
inferred from DOI database lookup
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1 reference
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7 January 2021
based on heuristic
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1 reference
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Crossref
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7 January 2021
based on heuristic
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1 reference
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Crossref
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7 January 2021
based on heuristic
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7 January 2021
based on heuristic
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GABA synchronizes clock cells within the suprachiasmatic circadian clock.
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7 January 2021
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7 January 2021
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Rsk-2 activity is necessary for epidermal growth factor-induced phosphorylation of CREB protein and transcription of c-fos gene
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Requirement of Rsk-2 for epidermal growth factor-activated phosphorylation of histone H3
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7 January 2021
based on heuristic
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7 January 2021
based on heuristic
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7 January 2021
based on heuristic
inferred from DOI database lookup
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7 January 2021
based on heuristic
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double-time is a novel Drosophila clock gene that regulates PERIOD protein accumulation
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7 January 2021
based on heuristic
inferred from DOI database lookup
Phosphorylation of the Neurospora clock protein FREQUENCY determines its degradation rate and strongly influences the period length of the circadian clock
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Role of a white collar-1-white collar-2 complex in blue-light signal transduction
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FKF1, a clock-controlled gene that regulates the transition to flowering in Arabidopsis.
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7 January 2021
based on heuristic
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ZEITLUPE encodes a novel clock-associated PAS protein from Arabidopsis
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7 January 2021
based on heuristic
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Nuclear entry of the circadian regulator mPER1 is controlled by mammalian casein kinase I epsilon
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Crossref
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7 January 2021
based on heuristic
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Photic induction of mPer1 and mPer2 in cry-deficient mice lacking a biological clock
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7 January 2021
based on heuristic
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Differential regulation of mammalian period genes and circadian rhythmicity by cryptochromes 1 and 2
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7 January 2021
based on heuristic
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Regulation of mammalian circadian behavior by non-rod, non-cone, ocular photoreceptors.
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Regulation of the mammalian pineal by non-rod, non-cone, ocular photoreceptors.
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7 January 2021
based on heuristic
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7 January 2021
based on heuristic
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Spectral sensitivity of a novel photoreceptive system mediating entrainment of mammalian circadian rhythms
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Vertebrate ancient-long opsin: a green-sensitive photoreceptive molecule present in zebrafish deep brain and retinal horizontal cells.
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Novel retinal photoreceptors.
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7 January 2021
based on heuristic
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A novel human opsin in the inner retina
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7 January 2021
based on heuristic
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Light detection in a 'blind' mammal
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based on heuristic
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Light acts directly on organs and cells in culture to set the vertebrate circadian clock
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based on heuristic
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Mammalian cerebral cortical tissue responds to low-intensity visible light
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7 January 2021
based on heuristic
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Output signals of the SCN.
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7 January 2021
based on heuristic
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Suprachiasmatic nucleus: a central autonomic clock
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7 January 2021
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A serum shock induces circadian gene expression in mammalian tissue culture cells
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7 January 2021
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Cycling vrille expression is required for a functional Drosophila clock
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A pdf neuropeptide gene mutation and ablation of PDF neurons each cause severe abnormalities of behavioral circadian rhythms in Drosophila
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The Drosophila takeout gene is a novel molecular link between circadian rhythms and feeding behavior.
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7 January 2021
based on heuristic
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7 January 2021
based on heuristic
inferred from DOI database lookup
The DBP gene is expressed according to a circadian rhythm in the suprachiasmatic nucleus and influences circadian behavior
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7 January 2021
based on heuristic
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Role of DBP in the circadian oscillatory mechanism
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7 January 2021
based on heuristic
inferred from DOI database lookup
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7 January 2021
based on heuristic
inferred from DOI database lookup
Requirement of circadian genes for cocaine sensitization in Drosophila.
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7 January 2021
based on heuristic
inferred from DOI database lookup
GFP fluorescence reports Period 1 circadian gene regulation in the mammalian biological clock
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7 January 2021
based on heuristic
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Cellular construction of a circadian clock: period determination in the suprachiasmatic nuclei.
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7 January 2021
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Circadian rhythms in cultured mammalian retina
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7 January 2021
based on heuristic
inferred from DOI database lookup
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7 January 2021
based on heuristic
inferred from DOI database lookup
Transplanted Drosophila excretory tubules maintain circadian clock cycling out of phase with the host.
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https://api.crossref.org/works/10.1038%2F35036078
retrieved
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Zebrafish Clock rhythmic expression reveals independent peripheral circadian oscillators.
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Resetting central and peripheral circadian oscillators in transgenic rats
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Circadian rhythms in olfactory responses of Drosophila melanogaster.
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7 January 2021
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Multitissue circadian expression of rat period homolog (rPer2) mRNA is governed by the mammalian circadian clock, the suprachiasmatic nucleus in the brain
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Identifiers
DOI
10.1038/35036078
1 reference
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Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
Dimensions Publication ID
1050807124
0 references
PubMed ID
11413490
1 reference
stated in
Europe PubMed Central
PubMed ID
11413490
retrieved
1 August 2017
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