互补
转录因子
突变体
镉
调节器
化学
细胞生物学
荧光素酶
发起人
下调和上调
转录组
抄写(语言学)
生物化学
蛋白质片段互补分析
基因表达
基因
生物
分子生物学
基因表达调控
转录调控
启动子活性
金属毒性
锌指转录因子
酶
毒性
作者
Shubao Hu,Hui Wang,Muyao Zhu,Xinyue Wang,Zixuan Gu,Xinxin Su,Enhui Ji,Xiaoyan Xiang,Wei Zhang,Yifeng Cheng,Xinjian Shi,Dan Mu,Hainie Zha,Xin Xiao
摘要
Cadmium (Cd) toxicity threatens rice production and food safety. While ethylene-responsive transcription factors (ERFs) are involved in stress responses, their role in Cd detoxification in rice is unclear. This study identifies OsERF104 as a key positive regulator of Cd tolerance in rice. We demonstrate that OsERF104, induced by Cd stress in an H₂O₂-dependent manner, directly activates the expression of OsPDR5 and OsPDR20, two plasma membrane ABC transporters responsible for Cd efflux. Loss-of-function OsERF104 showed increased Cd sensitivity and accumulation, while complementation restored wild-type phenotypes. Transcriptomic analysis revealed that OsERF104 is essential for Cd-inducible expression of OsPDR5 and OsPDR20. OsERF104 directly binds to GCC-box elements in the promoters of OsPDR5 and OsPDR20, activating their transcription, as confirmed by ChIP-qPCR, EMSA, Y1H, and luciferase assays. Overexpression of OsPDR20 in the oserf104 mutant rescued the Cd-sensitive phenotype. Collectively, our findings uncover a novel OsERF104-OsPDR5/OsPDR20 module that curtails Cd accumulation and enhances Cd tolerance, representing a promising target for breeding low-Cd rice.
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