Transcription factor bZIP48 ‐ MYB96 module positively regulates cuticular wax synthesis by directly activating KCSs and CER3 genes in response to cold stress

冷应激 耐寒性 下调和上调 拟南芥 细胞生物学 转录因子 基因 生物 化学 抗冻性 生物合成 生物化学 DNA 基因表达 抄写(语言学) 蛋白质生物合成 战斗或逃跑反应 表皮蜡 冷敏 DNA合成
作者
Linyao Liu,Lei Cao,Wangmei Ren,Na Tang,Minghao Xiang,Xuan Zhang,Fei Hong,Lihuan Wang,Yongsheng Liu,Cheng Zhang,Pengpeng Zheng
出处
期刊:New Phytologist [Wiley]
卷期号:250 (3): 1646-1668
标识
DOI:10.1111/nph.71033
摘要

Summary Previous studies have found that wax can enhance the cold stress tolerance of plants, but how the wax synthesis of plants is regulated in response to cold stress is still largely unclear. In this work, we reveal that wax biosynthesis in Arabidopsis is induced by cold stress, which is due to the significant upregulation of wax synthesis genes β‐ketoacyl‐CoA synthases ( KCSs ) and ECERIFERUMs ( CERs ) under cold stress. Our evidence suggests that MYB96 is upregulated by cold stress, and MYB96 is responsible for the activation of KCSs and CER3 genes to promote wax synthesis under cold stress, thereby enhancing the freezing tolerance of plants. Furthermore, we found that bZIP48 is also upregulated by cold stress, and bZIP48 positively regulates wax synthesis to enhance freezing tolerance by directly activating KCSs and CER3 genes. Interestingly, we found that bZIP48 and MYB96 cooperatively regulate the synthesis of wax under cold stress to improve the freezing stress tolerance of plants, which is due to the interaction between bZIP48 and MYB96 to enhance each other's DNA binding activity. Therefore, we conclude that the bZIP48‐MYB96 module positively regulates wax synthesis by directly activating KCSs and CER3 genes in response to cold stress.
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