Phytopathogens secrete effector proteins that disrupt plant immunity.Phytohormones,such as ethylene,function as immune signals that regulate plant responses to phytopathogens.However,the mechanisms by which powdery mi...Phytopathogens secrete effector proteins that disrupt plant immunity.Phytohormones,such as ethylene,function as immune signals that regulate plant responses to phytopathogens.However,the mechanisms by which powdery mildew fungi utilize effectors to manipulate ethylene signaling remain poorly understood.This study reports that Eae1,an effector from the powdery mildew fungus Erysiphe quercicola,can reduce ethylene levels and attenuate the immune response in rubber trees(Hevea brasiliensis),thereby promoting fungus infection.Notably,Eae1 shares homologs with effectors from other powdery mildew fungi.Our findings indicate that the Eae1 transcription can be induced by enhanced ethylene signaling.Eae1 is translocated to plant chloroplasts,where it destabilizes Hevea brasiliensis S-adenosyl-L-methionine synthetase,a key enzyme in ethylene biosynthesis,leading to reduced ethylene production.The chloroplast-localized protein Toc159/AIG1(AIG1)may facilitate this interaction.Overall,our study reveals a mechanism by which powdery mildew fungi disrupt ethylene-mediated resistance in host plants.展开更多
基金supported by the National Natural Science Foundation of China(32360640)Collaborative Innovation Center of Nanfan and High Efficiency Tropical Agriculture of Hainan University(XTCX2022NYA01)+2 种基金the Hainan Province Science and Technology Talent Innovation Project(KJRC2023B14)Hainan Yazhou Bay Seed Laboratory(B21HJ0905)the Tropical High-efficiency Agricultural Industry Technology System of Hainan University(THAITS-3).
文摘Phytopathogens secrete effector proteins that disrupt plant immunity.Phytohormones,such as ethylene,function as immune signals that regulate plant responses to phytopathogens.However,the mechanisms by which powdery mildew fungi utilize effectors to manipulate ethylene signaling remain poorly understood.This study reports that Eae1,an effector from the powdery mildew fungus Erysiphe quercicola,can reduce ethylene levels and attenuate the immune response in rubber trees(Hevea brasiliensis),thereby promoting fungus infection.Notably,Eae1 shares homologs with effectors from other powdery mildew fungi.Our findings indicate that the Eae1 transcription can be induced by enhanced ethylene signaling.Eae1 is translocated to plant chloroplasts,where it destabilizes Hevea brasiliensis S-adenosyl-L-methionine synthetase,a key enzyme in ethylene biosynthesis,leading to reduced ethylene production.The chloroplast-localized protein Toc159/AIG1(AIG1)may facilitate this interaction.Overall,our study reveals a mechanism by which powdery mildew fungi disrupt ethylene-mediated resistance in host plants.
