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Πέμπτη 22 Μαρτίου 2018

The Circadian Clock Sets the Time of DNA Replication Licensing to Regulate Growth in Arabidopsis

Publication date: Available online 22 March 2018
Source:Developmental Cell
Author(s): Jorge Fung-Uceda, Kyounghee Lee, Pil Joon Seo, Stefanie Polyn, Lieven De Veylder, Paloma Mas
The circadian clock and cell cycle as separate pathways have been well documented in plants. Elucidating whether these two oscillators are connected is critical for understanding plant growth. We found that a slow-running circadian clock decelerates the cell cycle and, conversely, a fast clock speeds it up. The clock component TOC1 safeguards the G1-to-S transition and controls the timing of the mitotic cycle at early stages of leaf development. TOC1 also regulates somatic ploidy at later stages of leaf development and in hypocotyl cells. The S-phase is shorter and delayed in TOC1 overexpressing plants, which correlates with the diurnal repression of the DNA replication licensing gene CDC6 through binding of TOC1 to the CDC6 promoter. The slow cell-cycle pace in TOC1-ox also results in delayed tumor progression in inflorescence stalks. Thus, TOC1 sets the time of the DNA pre-replicative machinery to control plant growth in resonance with the environment.

Graphical abstract

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Teaser

Fung-Uceda et al. show that the circadian clock sets the time of the cell cycle to accurately regulate the number and size of plant cells in synch with the environment. By regulating DNA replication, the clock is able to control not only plant growth but also tumor progression.


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