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Transcription Factor TaMYB30 Activates Wheat Wax Biosynthesis

Lang Liu, Haoyu Li, Xiaoyu Wang, Cheng Chang

2023International Journal of Molecular Sciences23 citationsDOIOpen Access PDF

Abstract

The waxy cuticle covers a plant’s aerial surface and contributes to environmental adaptation in land plants. Although past decades have seen great advances in understanding wax biosynthesis in model plants, the mechanisms underlying wax biosynthesis in crop plants such as bread wheat remain to be elucidated. In this study, wheat MYB transcription factor TaMYB30 was identified as a transcriptional activator positively regulating wheat wax biosynthesis. The knockdown of TaMYB30 expression using virus-induced gene silencing led to attenuated wax accumulation, increased water loss rates, and enhanced chlorophyll leaching. Furthermore, TaKCS1 and TaECR were isolated as essential components of wax biosynthetic machinery in bread wheat. In addition, silencing TaKCS1 and TaECR resulted in compromised wax biosynthesis and potentiated cuticle permeability. Importantly, we showed that TaMYB30 could directly bind to the promoter regions of TaKCS1 and TaECR genes by recognizing the MBS and Motif 1 cis-elements, and activate their expressions. These results collectively demonstrated that TaMYB30 positively regulates wheat wax biosynthesis presumably via the transcriptional activation of TaKCS1 and TaECR.

Topics & Concepts

WaxBiosynthesisMYBTranscription factorBiologyGene knockdownGene silencingChromosomal translocationCell biologyActivator (genetics)GeneBiochemistryBotanyPlant Surface Properties and TreatmentsPostharvest Quality and Shelf Life ManagementPlant Reproductive Biology
Transcription Factor TaMYB30 Activates Wheat Wax Biosynthesis | Litcius