生物
耐旱性
脱落酸
抗旱性
转录因子
调节器
基因
转基因
突变体
转基因作物
干旱胁迫
作物生产力
拟南芥
植物
细胞生物学
主调节器
作物
遗传学
基因组
发起人
植物生理学
农学
抄写(语言学)
战斗或逃跑反应
生物技术
作者
Ang Li,Mayila Yusuyin,Yuping Wei,Chengcheng Shen,Yushun Li,Yafei Li,Xiaoxia Hao,Mairebaike Muhamaitiha,Baike Wang,Juan Wang,Haiyan Lan,Bin Liu,Qinghui Yu
摘要
Abstract Drought stress profoundly impacts plant productivity worldwide. The roles of Basic helix–loop–helix (bHLH) transcription factors are critical in processes of plant growth, development, and stress management. However, roles of specific bHLH genes in tomato, particularly in relation to drought tolerance, remain poorly understood. This research identified SlbHLH70 as a factor that enhances drought tolerance in tomato. Transgenic lines overexpressing SlbHLH70 exhibited enhanced drought tolerance and improved post-stress recovery, whereas SlbHLH70 knockout mutants showed increased sensitivity to drought stress. Further study showed that SlbHLH70 directly regulated genes associated with abscisic acid (ABA) synthesis, ABA-mediated signal transduction, and root development. Our research identified SlbHLH70 as an important regulator of drought resistance in tomato, offering a valuable genetic target for enhancing crop resilience to water shortages.
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