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Upregulation of GLRs expression by light in Arabidopsis leaves

Anna Hebda, Aleksandra Liszka, Aleksandra Lewandowska, Jan J. Łyczakowski, Halina Gabryś, Weronika Krzeszowiec

2022BMC Plant Biology13 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Glutamate receptor-like (GLR) channels are plant homologs of iGluRs, animal ionotropic glutamate receptors which participate in neurotransmission. GLRs mediate plant adaptive processes and photomorphogenesis. Despite their contribution to light-dependent processes, signaling mechanisms that modulate GLR response to light remain unknown. Here we show that leaf expression of 7 out of 20 Arabidopsis GLRs is significantly up-regulated by monochromatic irradiation. RESULTS: Our data indicates that both red and blue light stimulate the expression of selected AtGLRs. Using a photosynthesis inhibitor and different irradiation regimes, we demonstrated that retrograde signaling from photosystem II is unlikely to be involved in light-dependent GLR up-regulation. Analysis of transcriptional patterns in mutants of key photoreceptors allowed us to observe that both phytochromes and cryptochromes are likely to be involved in the control of light-dependent up-regulation of AtGLR expression, with phytochromes playing a clearly dominating role in this process. CONCLUSIONS: In mature Arabidopsis leaves, phytochromes, assisted by cryptochromes, mediate light-driven transcriptional up-regulation of several genes encoding GLR proteins. Since GLRs are known to be involved in a wide range of plant developmental processes our results provide mechanistic insight into how light may influence plant growth and development.

Topics & Concepts

ArabidopsisPhotomorphogenesisBiologyCryptochromePhytochromePhototropinCell biologyPhytochrome APhototropismMutantSignal transductionIonotropic effectRetrograde signalingBotanyGlutamate receptorGeneticsReceptorGeneBlue lightCircadian clockRed lightPhysicsOpticsPlant and Biological Electrophysiology StudiesLight effects on plantsPlant Molecular Biology Research