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Arabidopsis B-BOX DOMAIN PROTEIN14/15/16 form a feedback loop with ELONGATED HYPOCOTYL 5 and PHYTOCHROME-INTERACTING FACTORs to regulate hypocotyl elongation

Zeeshan Nasim, Nouroz Karim, Hendry Susila, Ji Hoon Ahn

2024Current Plant Biology6 citationsDOIOpen Access PDF

Abstract

Light-regulated developmental processes such as photomorphogenesis and flowering play important roles in the plant life cycle, from seedling emergence to reproduction. Three members of the Arabidopsis thaliana B-BOX DOMAIN PROTEIN (BBX) family, BBX14 , BBX15 , and BBX16 (hereafter BBX14/15/16 ), redundantly regulate flowering time, but whether this genetic redundancy also affects the regulation of photomorphogenesis remains unclear. Here, we show that light induces BBX14/15/16 expression primarily in the hypocotyl, where BBX14/15/16 redundantly repress hypocotyl elongation. PHYTOCHROME-INTERACTING FACTORs (PIFs) negatively regulate BBX14/15/16 expression mainly through GOLDEN-LIKE proteins (GLKs); however, analyses of ChIP-seq data showed that PIFs are recruited to the BBX14/15/16 loci and can also regulate these genes independently of GLKs. ELONGATED HYPOCOTYL 5 (HY5), a major regulator of photomorphogenesis, also directly binds to the BBX14/15/16 loci and regulates their expression. Simultaneous knockdown of BBX14/15/16 resulted in significant downregulation of HY5 and upregulation of PIF s, suggesting that these factors participate in a feedback regulatory loop. Indeed, BBX14/15/16 induced HY5 promoter activity by binding to the HY5 promoter. The brassinosteroid-responsive gene TOUCH4 ( TCH4 ) and several auxin-responsive SMALL AUXIN UPREGULATED RNA ( SAUR ) genes were upregulated in the BBX14/15/16 knockdown plants, suggesting that auxin and brassinosteroids might participate in BBX14/15/16-mediated hypocotyl regulation. Mutating the predicted BBX-binding sites in SAUR4 and TCH4 impaired their regulation by BBX14/15/16. We propose that BBX14/15/16, together with HY5 and PIFs, form a feedback loop that regulates the expression of auxin- and brassinosteroid-related genes to modulate hypocotyl elongation. • Light induces BBXs expression primarily in the hypocotyl, where they redundantly repress hypocotyl elongation. • ChIP-seq data showed that PIFs are recruited to the BBX s loci and regulate these genes independently of GLKs. • HY5 can also bind to BBX s loci and positively regulate their expression. • BBX14/15/16 can regulate both HY5 and PIF s, forming a feedback regulatory loop. • BBX14/15/16 modulate hypocotyl length via auxin- and BR-responsive genes.

Topics & Concepts

HypocotylElongationPhytochromeArabidopsisLoop (graph theory)Domain (mathematical analysis)BotanyBiologyPhysicsChemistryMathematicsBiochemistryGeneCombinatoricsRed lightMaterials scienceMathematical analysisMutantMetallurgyUltimate tensile strengthPlant Molecular Biology ResearchLight effects on plantsPhotosynthetic Processes and Mechanisms