生物
猕猴桃
抗冻性
猕猴桃
异源的
转录因子
基因
报告基因
细胞生物学
基因表达
拟南芥
苹果属植物
耐寒性
格斯报告系统
植物
遗传学
突变体
作者
Shihang Sun,Chun‐Gen Hu,Xiujuan Qi,Jinyong Chen,Yunpeng Zhong,Muhammad Abid,Miaomiao Lin,Jinbao Fang
标识
DOI:10.1038/s41438-021-00530-1
摘要
Beta-amylase (BAM) plays an important role in plant resistance to cold stress. However, the specific role of the BAM gene in freezing tolerance is poorly understood. In this study, we demonstrated that a cold-responsive gene module was involved in the freezing tolerance of kiwifruit. In this module, the expression of AaBAM3.1, which encodes a functional protein, was induced by cold stress. AaBAM3.1-overexpressing kiwifruit lines showed increased freezing tolerance, and the heterologous overexpression of AaBAM3.1 in Arabidopsis thaliana resulted in a similar phenotype. The results of promoter GUS activity and cis-element analyses predicted AaCBF4 to be an upstream transcription factor that could regulate AaBAM3.1 expression. Further investigation of protein-DNA interactions by using yeast one-hybrid, GUS coexpression, and dual luciferase reporter assays confirmed that AaCBF4 directly regulated AaBAM3.1 expression. In addition, the expression of both AaBAM3.1 and AaCBF4 in kiwifruit responded positively to cold stress. Hence, we conclude that the AaCBF-AaBAM module is involved in the positive regulation of the freezing tolerance of kiwifruit.
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