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Flavonoid pathway intermediates implicate UVR8 in functions beyond canonical UV-B signaling

Nan Jiang, Tatiana García Navarrete, Yun Sun Lee, Emily G. Pawlowski, Sun Young Park, Erich Grotewold

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

Plants integrate light signals to regulate development and produce protective compounds such as flavonoids under excessive light stress. While these metabolites protect against light damage, their roles in modulating photoreceptor responses remain unclear. Here, we show that naringenin chalcone (NGC), a flavonoid precursor that accumulates in the Arabidopsis chalcone isomerase mutant tt5 but which is also present in wild type plants under solar light, promotes UVR8 monomer accumulation beyond its canonical UV-B response. A genetic suppressor screen reveals that loss of UVR8 restores normal growth of tt5 mutants grown under high light, irrespective of the presence of UV-B. Biochemical and transcriptomic analyses show that NGC binds to monomeric UVR8, stabilizing its active form and triggering gene expression changes, even in the absence of UV-B. This work identifies a mechanism for stabilizing activated UVR8 and reveals crosstalk between light-induced metabolic intermediates and photoreceptor-mediated developmental regulation. Whether excessive light activated photo-protective compounds accumulation functions as sunscreen or participating in modulating photoreceptor responses in plants is still unclear. Here, the authors provide evidences to support the role of flavonoid pathway intermediates in integration of light signals into plant development.

Topics & Concepts

CrosstalkMutantArabidopsisFlavonoid biosynthesisTranscriptomeNaringeninCell biologyChalcone synthaseChalconeFlavonoidChemistryChalcone isomeraseBiochemistryBiologySignal transductionGeneGene expressionStereochemistryOpticsPhysicsAntioxidantLight effects on plantsPlant Molecular Biology ResearchPlant Gene Expression Analysis