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Transcription factor DgMYB recruits H3K4me3 methylase to <i>DgPEROXIDASE</i> to enhance chrysanthemum cold tolerance

Yunchen Luo, Yongyan Wang, Xin Li, Xiaohan Yang, Huiru Bai, Xiaoqin Liao, Xuanling Luo, Fan Zhang, Lei Zhang, Qinglin Liu

2023PLANT PHYSIOLOGY27 citationsDOI

Abstract

Cold affects the growth and development of plants. MYB transcription factors and histone H3K4me3 transferase ARABIDOPSIS TRITHORAXs (ATXs) play important regulatory functions in the process of plant resistance to low-temperature stress. In this study, DgMYB expression was responsive to low temperature, and overexpression of DgMYB led to increased tolerance, whereas the dgmyb mutant resulted in decreased tolerance of Chrysanthemum morifolium (Dendranthema grandiflorum var. Jinba) to cold stresses. Interestingly, we found that only peroxidase (POD) activity differed substantially between wild type (WT), overexpression lines, and the mutant line. A DgATX H3K4me3 methylase that interacts with DgMYB was isolated by further experiments. DgATX expression was also responsive to low temperature. Overexpression of DgATX led to increased tolerance, whereas the dgatx mutant resulted in decreased tolerance of chrysanthemum to cold stresses. Moreover, the dgmyb, dgatx, and dgmyb dgatx double mutants all led to reduced H3K4me3 levels at DgPOD, thus reducing DgPOD expression. Together, our results show that DgMYB interacts with DgATX, allowing DgATX to specifically target DgPOD, altering H3K4me3 levels, increasing DgPOD expression, and thereby reducing the accumulation of reactive oxygen species (ROS) in chrysanthemum.

Topics & Concepts

H3K4me3MutantBiologyTranscription factorMYBArabidopsisCell biologyWild typeCold toleranceChrysanthemum morifoliumBotanyGene expressionGeneticsGenePromoterPlant Gene Expression AnalysisPlant Stress Responses and TolerancePlant Molecular Biology Research
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