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Abstract
In mammals, the molecular circadian clockwork is comprised of interlocked transcriptional-translational feedback loops (TTLs). Three Period (Per1-3) and 2 Dec (Dec1/2) genes interact in regulating the activity of the transcriptional activators CLOCK/NPAS2 and BMAL1. While deletion of Per1 and Per2 in mice results in behavioral arrhythmicity, Dec deletion has less dramatic effects on activity rhythms, affecting primarily phase of entrainment and free-running period. In intact animals, clock gene mutant phenotypes are often masked due to intercellular coupling mechanisms that stabilize cellular rhythms. Therefore, to study Per/Dec genetic interaction at the cellular level, we isolated fibroblasts from different tissues of Per1, Per2, and Dec2 single and double mutant mice. We show that in the cellular TTL, Pers and Dec2 act in a principally synergistic way, but tissue-specific differences in this interaction are seen. A rescue of rhythmicity in Per2 mutant cells after additional deletion of Dec2 was observed, indicating that in the absence of Per2, DEC2 destabilizes TTL function. Rhythm power in Per1/Dec2 and Per2/Dec2 double mutants was strongly reduced, suggesting that interaction of Dec2 with both Per genes is important for stabilizing clock period. Contrary to what was observed for behavior, nonsynergistic effects of Dec2 and Per1/2 mutations were observed on cellular clock phase regulation that do not correlate with period effects. Our data reveal cell type-specific interactions of Per1/2 and Dec2 in the regulation of period, phase, and rhythm sustainment, emphasizing the differential organization of the mammalian clock machinery in different tissues.
Originalsprache | Englisch |
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Titel | Journal of Biological Rhythms |
Seitenumfang | 12 |
Erscheinungsdatum | 12.2012 |
Seiten | 478-489 |
ISBN (Print) | 1552-4531 (Electronic)\r0748-7304 (Linking) |
DOIs | |
Publikationsstatus | Veröffentlicht - 12.2012 |
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Untersuchungen zur molekularen Physiologie peripherer zirkadianer Uhren
01.01.07 → 31.12.12
Projekt: DFG-Projekte › DFG Einzelförderungen
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Emmy Noether-Nachwuchsgruppe: Untersuchungen zur molekularen Physiologie peripherer zirkadianer Uhren
01.01.07 → 31.12.12
Projekt: DFG-Projekte › DFG-Stipendien: Emmy Noether-Programm