JA‐Mediated Regulation of Amino Acid Homeostasis Adjusts Metabolic Flux and Enhances Spider Mite Tolerance via the SlJAZ8‐SlWRKY57‐SlAVT6s Module in Tomato

平衡 蜘蛛螨 蜘蛛 焊剂(冶金) 化学 生物 细胞生物学 生物化学 生态学 有机化学
作者
Yingchen Hao,Xiaolong Wang,Langchen Guo,Lijun Xiang,Erping Luo,Peng Cao,Penghui Liu,Yue Zhong,Chun Li,Jun Lai,Jun Yang,Shouchuang Wang
出处
期刊:Advanced Science [Wiley]
标识
DOI:10.1002/advs.202416717
摘要

A crucial strategy employed by plants to enhance insect resistance is allocating amino acids into secondary metabolic pathways, ensuring the synthesis of specialized metabolites that confer resistance. The storage and redistribution of amino acids primarily occur in vacuole; therefore, transport mechanisms must exist to facilitate the directed extravasation of amino acids from vacuole to cytosol and feed them into secondary metabolism in response to stress. However, the specific amino acid transporter located in the vacuole responsible for amino acid distribution remains unclear. Here, we identify two tomato vacuolar amino acid transporters, SlAVT6A and SlAVT6B. SlAVT6A functions as the primary exporter, while SlAVT6B modulates transport capacity through SlAVT6A/SlAVT6B heterodimer formation. This system redirects amino acids to boost trichome density, terpene accumulation, and gibberellin synthesis, thereby strengthening defense against spider mites. Furthermore, SlWRKY57 coordinates both transporters by forming a complex with SlJAZ8, linking jasmonic acid (JA) signaling to amino acid homeostasis through metabolic reprogramming from primary to specialized pathways. The findings reveal a SlJAZ8-SlWRKY57-SlAVT6A/SlAVT6B module that enhances growth and resistance by allocating amino acid to secondary metabolic pathways, offering insights for improving resistance in metabolic-assisted breeding.
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