RNA around the clock – regulation at the RNA level in biological timing

Nolte C, Staiger D (2015)
Frontiers in Plant Science 6: 311.

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Abstract / Bemerkung
The circadian timing system in plants synchronizes their physiological functions with the environment. This is achieved by a global control of gene expression programs with a considerable part of the transcriptome undergoing 24-h oscillations in steady-state abundance. These circadian oscillations are driven by a set of core clock proteins that generate their own 24-h rhythm through periodic feedback on their own transcription. Additionally, post-transcriptional events are instrumental for oscillations of core clock genes and genes in clock output. Here we provide an update on molecular events at the RNA level that contribute to the 24-h rhythm of the core clock proteins and shape the circadian transcriptome. We focus on the circadian system of the model plant Arabidopsis thaliana but also discuss selected regulatory principles in other organisms.
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Zeitschriftentitel
Frontiers in Plant Science
Band
6
Artikelnummer
311
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Nolte C, Staiger D. RNA around the clock – regulation at the RNA level in biological timing. Frontiers in Plant Science. 2015;6: 311.
Nolte, C., & Staiger, D. (2015). RNA around the clock – regulation at the RNA level in biological timing. Frontiers in Plant Science, 6, 311. doi:10.3389/fpls.2015.00311
Nolte, C., and Staiger, D. (2015). RNA around the clock – regulation at the RNA level in biological timing. Frontiers in Plant Science 6:311.
Nolte, C., & Staiger, D., 2015. RNA around the clock – regulation at the RNA level in biological timing. Frontiers in Plant Science, 6: 311.
C. Nolte and D. Staiger, “RNA around the clock – regulation at the RNA level in biological timing”, Frontiers in Plant Science, vol. 6, 2015, : 311.
Nolte, C., Staiger, D.: RNA around the clock – regulation at the RNA level in biological timing. Frontiers in Plant Science. 6, : 311 (2015).
Nolte, Christine, and Staiger, Dorothee. “RNA around the clock – regulation at the RNA level in biological timing”. Frontiers in Plant Science 6 (2015): 311.
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2016-02-26T07:16:57Z

8 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Cardinal Epigenetic Role of non-coding Regulatory RNAs in Circadian Rhythm.
Bhadra U, Patra P, Pal-Bhadra M., Mol Neurobiol 55(4), 2018
PMID: 28516429
What makes ribosomes tick?
Mills SC, Enganti R, von Arnim AG., RNA Biol 15(1), 2018
PMID: 29099307
Dynamic genome-scale metabolic modeling of the yeast Pichia pastoris.
Saitua F, Torres P, Pérez-Correa JR, Agosin E., BMC Syst Biol 11(1), 2017
PMID: 28222737
Circadian Profiling of the Arabidopsis Proteome Using 2D-DIGE.
Choudhary MK, Nomura Y, Shi H, Nakagami H, Somers DE., Front Plant Sci 7(), 2016
PMID: 27462335
Molecular mechanisms at the core of the plant circadian oscillator.
Nohales MA, Kay SA., Nat Struct Mol Biol 23(12), 2016
PMID: 27922614
Integrating circadian dynamics with physiological processes in plants.
Greenham K, McClung CR., Nat Rev Genet 16(10), 2015
PMID: 26370901

76 References

Daten bereitgestellt von Europe PubMed Central.

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