Natural variation in TaRFR1-5B modulates Fusarium head blight resistance via recognition of pTaRIN1-like in wheat
Liu Fujie, Chen Fang, Zhai Wenling, Liu Ying, Chen Yuxin, Fu Bisheng, Lin Zhixin, Cai Jin, Liu Caiyun, Xu Feng, Wu Jizhong
Journal:PLANT PHYSIOLOGY
IF:6.9
DOI:10.1093/plphys/kiaf685
PMID:
Published:2026-01-02
research field:癌症研究化学疗法材料科学纳米医学
Abstract
Fusarium head blight (FHB) is a fungal disease that significantly threatens the yield and quality of wheat production worldwide. However, the genetic basis of FHB resistance remains unclear. Using a genome-wide association study in a natural population of common wheat, we identified a coiled-coil (CC)-NBS-LRR protein, TaRFR1-5B, that participates in resistance against FHB. Natural variation in TaRFR1-5B alters its binding affinity to the immune-regulatory protein TaRIN1-like and affects plant resistance to FHB. In common wheat, TaRFR1-5B recognizes phosphorylated TaRIN1-like, which regulates the reactive oxygen species burst and cell death response. Our findings provide insights into the regulatory mechanisms of TaRFR1-5B–TaRIN1-like in wheat FHB resistance, demonstrating its potential for improving resistance in wheat breeding.
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