Litcius/Paper detail

A circadian morning complex modulates far-red light signaling in Arabidopsis

Su Chen, Yumei Qin, Y. Yu, Yan Wang, Yuqing He, Seth J Davis, Lei Wang

2025Nature Communications7 citationsDOIOpen Access PDF

Abstract

The plant circadian clock coordinates internal processes with daily and seasonal environmental changes by interacting with prevalent light cues. However, how the circadian clock feedback regulates light signals remains largely elusive. Here, we identify that the clock regulator TIME FOR COFFEE (TIC), which interacts with the core clock components CIRCADIAN CLOCK ASSOCIATED1 (CCA1) and LATE ELONGATED HYPOCOTYL (LHY) to form a “Morning Complex” in the nucleus and co-repress numerous genes, particularly at dawn. Intriguingly, the MC inhibits PHYA and other phyA signaling components at dawn through binding to their promoters. Mutants lacking CCA1 and LHY show increased sensitivity to far-red light, similar to tic mutants, highlighting the cooperative role of TIC, CCA1, and LHY in regulating light-inhibited hypocotyl growth. Altogether, these findings indicate that the circadian MC is a key complex, feedback regulates light signal and mediates multiple biological processes at dawn to ensure plant fitness. The clock regulator TIME FOR COFFEE is found to interact with core clock components to form a ‘Morning Complex’ which represses a group of genes including PHYA and other phyA signaling components particularly at dawn in Arabidopsis.

Topics & Concepts

Circadian clockCircadian rhythmArabidopsisRegulatorHypocotylBiologyCell biologyCryptochromePhytochromeBacterial circadian rhythmsOscillating geneBiological clockMutantSignal transductionPeriod (music)NeuroscienceArabidopsis thalianaEndogenyNegative feedbackphotoperiodismPhytochrome AMaster clockFlux (metallurgy)ChronobiologyGeneticsLight effects on plantsCircadian rhythm and melatoninPlant Molecular Biology Research
A circadian morning complex modulates far-red light signaling in Arabidopsis | Litcius