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The VvWRKY37 Regulates Bud Break in Grape Vine Through ABA-Mediated Signaling Pathways

Feng-Pan Wang, Panpan Zhao, Lei Zhang, Heng Zhai, Muhammad Abid, Yuanpeng Du

2022Frontiers in Plant Science12 citationsDOIOpen Access PDF

Abstract

Dormancy is a common survival strategy in plants to temporarily suspend visible growth under unsuitable conditions. The elaborate mechanism underlying bud break in perennial woody plants is gradually illustrated. Here, we identified a grape vine WRKY transcription factor, VvWRKY37 , which was highly expressed in dormant buds. It was particularly induced by the application of exogenous abscisic acid, and depressed on exposure to gibberellin and low temperature (4°C) stress at the transcript level. The yeast one-hybrid assay confirmed that VvWRKY37 had a transcriptional activity. Ectopic over-expression of VvWRKY37 significantly delayed bud break of transgenic poplar plants. As an ABA-inducible gene, VvWRKY37 also depressed the expression of ABA catabolic gene CYP707A s and enhanced the accumulation of endogenous ABA in transgenic poplar plants. The molecular pieces of evidence showed that VvWRKY37 preferentially recognized and bound W-box 5′-G/CATTGACT/C/G-3′ cis -element in vitro . Additionally, VvABI5 and VvABF2 acted as the upstream transcriptional activators of VvWRKY37 via protein-DNA interactions. Taken together, our findings provided valuable insights into a new regulatory mechanism of WRKY TF by which it modulates bud break through ABA-mediated signaling pathways.

Topics & Concepts

WRKY protein domainAbscisic acidBiologyGibberellinEctopic expressionCell biologyTranscription factorMADS-boxDormancySignal transductionGeneGene expressionArabidopsisBotanyGeneticsTranscriptomeMutantGerminationPlant Gene Expression AnalysisBiochemical and biochemical processesPlant biochemistry and biosynthesis