Synchrony of plant cellular circadian clocks with heterogeneous properties under light/dark cycles

Individual cells in a plant can work independently as circadian clocks, and their properties are the basis of various circadian phenomena. The behaviour of individual cellular clocks in Lemna gibba was orderly under 24-h light/dark cycles despite their heterogeneous free-running periods (FRPs). Here...

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Veröffentlicht in:Scientific reports 2017-03, Vol.7 (1), p.317-317, Article 317
Hauptverfasser: Okada, Masaaki, Muranaka, Tomoaki, Ito, Shogo, Oyama, Tokitaka
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Sprache:eng
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Zusammenfassung:Individual cells in a plant can work independently as circadian clocks, and their properties are the basis of various circadian phenomena. The behaviour of individual cellular clocks in Lemna gibba was orderly under 24-h light/dark cycles despite their heterogeneous free-running periods (FRPs). Here, we reveal the entrainment habits of heterogeneous cellular clocks using non-24-h light/dark cycles (T-cycles). The cellular rhythms of AtCCA1::LUC under T = 16 h cycles showed heterogeneous entrainment that was associated with their heterogeneous FRPs. Under T = 12 h cycles, most cells showed rhythms having ~24-h periods. This suggested that the lower limit of entrainment to the light/dark cycles of heterogeneous cellular circadian clocks is set to a period longer than 12 h, which enables them to be synchronous under ~24-h daily cycles without being perturbed by short light/dark cycles. The entrainment habits of individual cellular clocks are likely to be the basis of the circadian behaviour of plant under the natural day–night cycle with noisy environmental fluctuations. We further suggest that modifications of EARLY FLOWERING3 ( ELF3 ) in individual cells deviate the entrainability to shorter T-cycles possibly by altering both the FRPs and light responsiveness.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-00454-8