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Arabidopsis NF-YCs play dual roles in repressing brassinosteroid biosynthesis and signaling during light-regulated hypocotyl elongation

Wenbin Zhang, Yang Tang, Yilong Hu, Yuhua Yang, Jiajia Cai, Hailun Liu, Chunyu Zhang, Xu Liu, Xingliang Hou

2021The Plant Cell55 citationsDOIOpen Access PDF

Abstract

Light functions as the primary environmental stimulus and brassinosteroids (BRs) as important endogenous growth regulators throughout the plant lifecycle. Photomorphogenesis involves a series of vital developmental processes that require the suppression of BR-mediated seedling growth, but the mechanism underlying the light-controlled regulation of the BR pathway remains unclear. Here, we reveal that nuclear factor YC proteins (NF-YCs) function as essential repressors of the BR pathway during light-controlled hypocotyl growth in Arabidopsis thaliana. In the light, NF-YCs inhibit BR biosynthesis by directly targeting the promoter of the BR biosynthesis gene BR6ox2 and repressing its transcription. NF-YCs also interact with BIN2, a critical repressor of BR signaling, and facilitate its stabilization by promoting its Tyr200 autophosphorylation, thus inhibiting the BR signaling pathway. Consistently, loss-of-function mutants of NF-YCs show etiolated growth and constitutive BR responses, even in the light. Our findings uncover a dual role of NF-YCs in repressing BR biosynthesis and signaling, providing mechanistic insights into how light antagonizes the BR pathway to ensure photomorphogenic growth in Arabidopsis.

Topics & Concepts

BiologyPhotomorphogenesisBrassinosteroidArabidopsisRepressorEtiolationCell biologyTranscription factorHypocotylSignal transductionCrosstalkArabidopsis thalianaMutantBiochemistryBotanyGeneOpticsPhysicsEnzymePlant Molecular Biology ResearchLight effects on plantsPhotosynthetic Processes and Mechanisms