耐旱性
生物
MYB公司
甘蓝
基因
干旱胁迫
基因沉默
拟南芥
转录因子
细胞生物学
突变体
植物
抗旱性
抗氧化剂
拟南芥
转基因作物
脱落酸
WRKY蛋白质结构域
芸苔属
酵母
荧光素酶
基因表达
信号转导
植物生理学
抄写(语言学)
遗传学
作者
Zhen Shen,Shuhua Huang,Minghui Guo,Qingqing Pang,Yanfeng Zhang,Zhongmin Xu
摘要
The MYB family has been extensively studied in model organisms, but research on these transcription factors in vegetable crops such as cabbage (Brassica oleracea L. var. capitata L.) remains incomplete. We cloned BoMYB2 and determined its role in cabbage drought response. We found that overexpression of BoMYB2, which is induced by ABA, significantly enhanced cabbage tolerance to drought, whereas BoMYB2-silenced line displayed the opposite phenotype. Two proteins that interact with BoMYB2, BoMYC2 and BoAREB1, were verified by yeast two-hybrid, luciferase complementation, pull-down assays. Overexpression of these genes in Arabidopsis thaliana significantly improved drought tolerance in A. thaliana, while their transient silencing in cabbage seedlings reduced drought tolerance. Both proteins are also induced by ABA, and they cooperate with BoMYB2 to enhance plant antioxidant capacity under drought, modulate downstream gene expression, and increase plant survival during water deficit. In summary, our results indicate that BoMYB2-BoMYC2 and BoMYB2-BoAREB1 complexes play important roles in ABA-signal-mediated regulation of drought responses in cabbage.
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