Simulated body temperature rhythms reveal the phase-shifting behavior and plasticity of mammalian circadian oscillators

Genes and Development

Volumn 26, Issue 6, 2012, Pages 567-580

  Saini, Camille ^a   Morf, Jörg ^a   Stratmann, Markus ^a   Gos, Pascal ^a   Schibler, Ueli ^a  

^a UNIVERSITY OF GENEVA   (Switzerland)

Author keywords

Body temperature rhythms; Circadian gene expression; Heat shock factor 1 (HSF1); Heat shock factor 2 (HSF2)

Indexed keywords

HEAT SHOCK FACTOR 2; HEAT SHOCK PROTEIN; HEAT SHOCK TRANSCRIPTION FACTOR 1; LUCIFERASE; UNCLASSIFIED DRUG;

ANIMAL CELL; ARTICLE; BIOLUMINESCENCE; BODY TEMPERATURE; CIRCADIAN RHYTHM; CONTROLLED STUDY; FIBROBLAST; GENE EXPRESSION; HYPOTHALAMUS; MAMMAL; MONITORING; MOUSE; NONHUMAN; OSCILLATION; OSCILLATOR; PRIORITY JOURNAL; REPORTER GENE; SIGNAL TRANSDUCTION; SIMULATION; STEADY STATE; SUPRACHIASMATIC NUCLEUS;

ANIMALS; BODY TEMPERATURE; CIRCADIAN CLOCKS; CIRCADIAN RHYTHM; DNA-BINDING PROTEINS; FIBROBLASTS; GENE EXPRESSION REGULATION; GENES, REPORTER; LUCIFERASES; MICE; TRANSCRIPTION FACTORS;

MAMMALIA; MUS;

EID: 84858321758     PISSN: 08909369     EISSN: 15495477     Source Type: Journal    
DOI: 10.1101/gad.183251.111     Document Type: Article

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