生物
转录因子
计算生物学
代谢途径
代谢工程
生物技术
生物合成
抄写(语言学)
转录调控
遗传学
代谢控制分析
合成生物学
人类健康
基因表达调控
细胞生物学
基因
上游(联网)
控制(管理)
调节器
生物信息学
信号转导
代谢调节
植物发育
代谢网络
机制(生物学)
代谢组学
生物化学
次生代谢
作者
Qin Chen,Na Li,Xiuming Cui,Feng Ge
摘要
AP2/ERF transcription factors (TFs) constitute a large, plant-specific family that acts as a central hub integrating developmental and environmental signals to modulate the biosynthesis of secondary metabolites. These compounds, including terpenoids, phenolic compounds, and alkaloids, are vital for plant survival and are of immense value to human health and industry. This review provides a comprehensive synthesis of the molecular mechanisms by which AP2/ERF TFs regulate these crucial metabolic pathways. We systematically classify and dissect their regulatory modes, including direct binding to cis-elements (e.g. GCC-box, CE1, and DRE/CRT), indirect control via upstream signaling cascades, co-regulation through physical interactions with other TF families (e.g. MYB, bHLH, WRKY), and feedback regulation. We present numerous case studies across diverse plant species, highlighting both conserved principles and species-specific adaptations in the control of high-value natural products like artemisinin, tanshinones, anthocyanins, and nicotine. Furthermore, we discuss the emerging roles of AP2/ERF TFs in metabolic engineering and synthetic biology, and outline future research directions, emphasizing the application of multi-omics and CRISPR/Cas9 technologies to unravel and engineer these complex regulatory networks for targeted overproduction of valuable phytochemicals.
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