PRR3 Is a Vascular Regulator of TOC1 Stability in the Arabidopsis Circadian Clock

The pseudoresponse regulators (PRRs) participate in the progression of the circadian clock in Arabidopsis thaliana. The founding member of the family, TIMING OF CAB EXPRESSION1 (TOC1), is an essential component of the transcriptional network that constitutes the core mechanism of the circadian oscil...

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Bibliographic Details
Published in:The Plant cell 2007-11, Vol.19 (11), p.3462-3473
Main Authors: Para, Alessia, Farré, Eva M, Imaizumi, Takato, Pruneda-Paz, José L, Harmon, Franklin G, Kay, Steve A
Format: Article
Language:English
Subjects:
Arabidopsis - cytology
Arabidopsis - genetics
Arabidopsis - physiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Arabidopsis thaliana
Biological Clocks - physiology
Cardiovascular system
Circadian Rhythm - physiology
Circadian rhythms
Flowering
Gene expression regulation
Gene Expression Regulation, Plant
Genes, Reporter
Messenger RNA
Mutation - genetics
Phenotype
Phenotypes
Photoperiod
Physiological regulation
Plant cells
Plant Leaves - cytology
Plant Leaves - genetics
Plant Leaves - metabolism
Plants
Plants, Genetically Modified
Protein Binding
RNA Interference
Saccharomyces cerevisiae - metabolism
Seedlings
Thermodynamics
Transcription Factors - genetics
Transcription Factors - metabolism
Transcription, Genetic
Yeasts
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Summary:The pseudoresponse regulators (PRRs) participate in the progression of the circadian clock in Arabidopsis thaliana. The founding member of the family, TIMING OF CAB EXPRESSION1 (TOC1), is an essential component of the transcriptional network that constitutes the core mechanism of the circadian oscillator. Recent data suggest a role in circadian regulation for all five members of the PRR family; however, the molecular function of TOC1 or any other PRRs remains unknown. In this work, we present evidence for the involvement of PRR3 in the regulation of TOC1 protein stability. PRR3 was temporally coexpressed with TOC1 under different photoperiods, yet its tissue expression was only partially overlapping with that of TOC1, as PRR3 appeared restricted to the vasculature. Decreased expression of PRR3 resulted in reduced levels of TOC1 protein, while overexpression of PRR3 caused an increase in the levels of TOC1, all without affecting the amount of TOC1 transcript. PRR3 was able to bind to TOC1 in yeast and in plants and to perturb TOC1 interaction with ZEITLUPE (ZTL), which targets TOC1 for proteasome-dependent degradation. Together, our results indicate that PRR3 might function to modulate TOC1 stability by hindering ZTL-dependent TOC1 degradation, suggesting the existence of local regulators of clock activity and adding to the growing importance of posttranslational regulation in the design of circadian timing mechanisms in plants.
ISSN:1040-4651
1532-298X
1532-298X
DOI:10.1105/tpc.107.054775