Mg deficiency interacts with the circadian clock and phytochromes pathways in Arabidopsis

Abstract: Little is known about the relationship between nutrition and the circadian clock in plants. The first global transcriptomic study in plants of the response to magnesium deficiency (–Mg) revealed that the circadian clock was affected in the Arabidopsis thaliana model species. Interactions between the circadian clock and Mg status were here investigated in the light of recent knowledge. We highlight the wide disturbances caused by –Mg within the central oscillator and, reciprocally, the probable pervasive influe… Show more

“…However, an SD treatment reduces the Mg 2+ content in the top layers and triggers floral induction. Mg is considered an important environmental factor in maintaining plant circadian rhythms because Mg deficiency causes longer periods of circadian oscillators, CCA1 [ 60 , 61 ]. Thus, an altered circadian rhythm induced by Mg malnutrition in the soil might affect the photoperiodic flowering pathway in plants.…”

Beyond NPK: Mineral Nutrient-Mediated Modulation in Orchestrating Flowering Time

“…However, an SD treatment reduces the Mg 2+ content in the top layers and triggers floral induction. Mg is considered an important environmental factor in maintaining plant circadian rhythms because Mg deficiency causes longer periods of circadian oscillators, CCA1 [ 60 , 61 ]. Thus, an altered circadian rhythm induced by Mg malnutrition in the soil might affect the photoperiodic flowering pathway in plants.…”

Beyond NPK: Mineral Nutrient-Mediated Modulation in Orchestrating Flowering Time

Two central circadian oscillators OsPRR59 and OsPRR95 modulate magnesium homeostasis and carbon fixation in rice

Light regulation of potassium in plants