Fungal Resistance In Rice Is Restoredby Interfamily Transferof An Evolutionarily Lost Coreceptor Qian Zhang Wenyue Zheng Haoxiang Huang Shuchen Wang Sizhe Li Kaixiang Wang Haixia You Hao Gong Xiayan Pan Zhongqiang Qi Yan Du Junjie Yu Mina Yu Huijuan Cao Rongsheng Zhang Yuanchao Wang Daolong Dou Zhenchuan Ma by Qian Zhang & Wenyue Zheng & Haoxiang Huang & Shuchen Wang & Sizhe Li & Kaixiang Wang & Haixia You & Hao Gong & Xiayan Pan & Zhongqiang Qi & Yan Du & Junjie Yu & Mina Yu & Huijuan Cao & Rongsheng Zhang & Yuanchao Wang & Daolong Dou & Zhenchuan Ma &... instant download after payment.

SUMMARYThe interfamily transfer of pattern-recognition receptors (PRRs) offers a promising strategy to enhance plantimmunity; however, factors causing functional limitations across species remain unknown. Here, we identifysecreted TOM20 domain-containing protein (STOM), a previously uncharacterized fungal microbe-associated molecular pattern (MAMP) that triggers immunity in Nicotiana benthamiana but not in rice (Oryza sativa).We identify NbSTOMR as the receptor that recognizes and binds STOM, and NbSTOMRh as the co-receptorthat, despite lacking ligand-binding ability, is essential through its extracellular interaction with NbSTOMR.Transferring NbSTOMR to rice fails to confer resistance, but NbSTOMRh alone enhances resistance to falsesmut and blast disease. Evolutionary analyses reveal that while STOMR is conserved, monocots have lostSTOMRh due to transposon-mediated chromosomal separation of its extracellular domain. AlthoughOsSTOMR binds STOM, OsSTOMRh is non-functional; however, NbSTOMRh promotes OsSTOMR-dependent STOM recognition. These findings highlight the critical role of co-receptors in overcoming taxonomicbarriers and provide a strategy for reconstituting PRR-mediated immunity in monocot crops.