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English
Mammalian circadian signaling networks and therapeutic targets.
scientific article published on October 2007
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scholarly article
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
review article
1 reference
stated in
Europe PubMed Central
title
Mammalian circadian signaling networks and therapeutic targets
(English)
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
main subject
circadian rhythm
0 references
author
Warren G Lewis
series ordinal
2
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
author name string
Andrew C Liu
series ordinal
1
1 reference
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Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
Steve A Kay
series ordinal
3
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
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7 January 2020
publication date
1 October 2007
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Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
published in
Nature Chemical Biology
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
volume
3
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
issue
10
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
page(s)
630-639
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Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
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The mouse VPAC2 receptor confers suprachiasmatic nuclei cellular rhythmicity and responsiveness to vasoactive intestinal polypeptide in vitro
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Gastrin-releasing peptide mediates photic entrainable signals to dorsal subsets of suprachiasmatic nucleus via induction of Period gene in mice
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Gastrin-releasing peptide phase-shifts suprachiasmatic nuclei neuronal rhythms in vitro
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Gastrin-releasing peptide promotes suprachiasmatic nuclei cellular rhythmicity in the absence of vasoactive intestinal polypeptide-VPAC2 receptor signaling.
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Electrical synapses coordinate activity in the suprachiasmatic nucleus
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Electrical silencing of Drosophila pacemaker neurons stops the free-running circadian clock.
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GABA and Gi/o differentially control circadian rhythms and synchrony in clock neurons
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SCN outputs and the hypothalamic balance of life
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Peripheral circadian oscillators in mammals: time and food
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A diffusible coupling signal from the transplanted suprachiasmatic nucleus controlling circadian locomotor rhythms.
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A molecular mechanism regulating rhythmic output from the suprachiasmatic circadian clock
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Suprachiasmatic nuclei grafts restore the circadian rhythm in the paraventricular nucleus of the hypothalamus.
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A clockwork web: circadian timing in brain and periphery, in health and disease
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Biological rhythms in the inflammatory response and in the effects of non-steroidal anti-inflammatory drugs.
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Cancer chronotherapy: principles, applications, and perspectives
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Circadian rhythms: mechanisms and therapeutic implications
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Timing and consolidation of human sleep, wakefulness, and performance by a symphony of oscillators
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The benzodiazepine binding site of GABA A receptors as a target for the development of novel anxiolytics
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A Review of the Multiple Actions of Melatonin on the Immune System
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https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
retrieved
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Circadian genes, rhythms and the biology of mood disorders
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Nuclear receptor Rev-erbalpha is a critical lithium-sensitive component of the circadian clock
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The orphan nuclear receptor REV-ERBalpha controls circadian transcription within the positive limb of the mammalian circadian oscillator
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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A role for glycogen synthase kinase-3beta in the mammalian circadian clock
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Restricted feeding uncouples circadian oscillators in peripheral tissues from the central pacemaker in the suprachiasmatic nucleus
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Entrainment of the circadian clock in the liver by feeding
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The mouse Clock mutation reduces circadian pacemaker amplitude and enhances efficacy of resetting stimuli and phase-response curve amplitude
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Promotion of sleep by targeting the orexin system in rats, dogs and humans
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Finding new clock components: past and future.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The period length of fibroblast circadian gene expression varies widely among human individuals
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Thiazolidine diones, specific ligands of the nuclear receptor retinoid Z receptor/retinoid acid receptor-related orphan receptor alpha with potent antiarthritic activity.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The role of the nuclear hormone receptor RORγt in the development of lymph nodes and Peyer's patches
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The "CholesteROR" protective pathway in the vascular system
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Control of mammalian circadian rhythm by CKIepsilon-regulated proteasome-mediated PER2 degradation.
1 reference
stated in
Crossref
reference URL
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7 January 2021
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Circadian mutant Overtime reveals F-box protein FBXL3 regulation of cryptochrome and period gene expression
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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SCFFbxl3 controls the oscillation of the circadian clock by directing the degradation of cryptochrome proteins
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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The after-hours mutant reveals a role for Fbxl3 in determining mammalian circadian period
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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System-driven and oscillator-dependent circadian transcription in mice with a conditionally active liver clock
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
retrieved
7 January 2021
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Rhythms of mammalian body temperature can sustain peripheral circadian clocks
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2FNCHEMBIO.2007.37
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7 January 2021
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Identifiers
DOI
10.1038/NCHEMBIO.2007.37
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
PubMed publication ID
17876320
1 reference
stated in
Europe PubMed Central
PubMed publication ID
17876320
reference URL
https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:17876320%20AND%20SRC:MED&resulttype=core&format=json
retrieved
7 January 2020
ResearchGate publication ID
5967355
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