生物
干旱胁迫
转录因子
基因
耐旱性
功能(生物学)
作物
抗旱性
农学
拟南芥
植物发育
植物生长
细胞生物学
植物
表型
转基因作物
禾本科
扎梅斯
转基因
作者
Haixia Zeng,Dandan Dou,Yang Yang,Yan Yan,Yawen Sun,Shuhan Yang,Wen Yao,Shifang Zhao,Mingle Wang,Zhixue Liu,Zhenzhen Ren,Huihui Su,Liru Cao,Lixia Ku,Xu Zheng,Chengwei Li,Yanhui Chen
摘要
Drought is a major environmental stress that inhibits plant growth and reduces crop yields. The Di19 gene family is known to play a pivotal role in mediating plant responses to drought. However, the mechanisms by which Di19 proteins integrate drought response with developmental processes, particularly flowering time, remain largely unknown in maize. In this study, we reveal that ZmDi19-5 possesses a dual function in regulating both drought tolerance and flowering in maize. Overexpression of ZmDi19-5 not only enhanced drought tolerance but also delayed flowering time. Furthermore, we demonstrate that the ZmDi19-5 and ZmFKF1b proteins interact both in vivo and in vitro. In contrast to the zmfkf1b mutants, plants overexpressing ZmFKF1b exhibited increased sensitivity to drought and accelerated flowering. Mechanistically, the interaction with ZmFKF1b attenuates the binding of ZmDi19-5 to the promoter of its downstream targets, including the transcription factor ZmHsf08 and the flowering inhibitor ZmCOL3, subsequently affecting their expression. In conclusion, our findings reveal that the ZmFKF1b-ZmDi19-5 module coordinates drought stress responses and flowering time in maize, providing a promising target for breeding drought-resistant maize varieties with stable agronomic traits.
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