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Glycine-serine-rich effector PstGSRE4 in Puccinia striiformis f. sp. tritici inhibits the activity of copper zinc superoxide dismutase to modulate immunity in wheat

Cong Liu, Yunqian Wang, Yanfeng Wang, Yuanyuan Du, Chao Song, Ping Song, Qian Yang, Fuxin He, Xingxuan Bai, Lili Huang, Jia Guo, Zhensheng Kang, Jun Guo

2022PLoS Pathogens39 citationsDOIOpen Access PDF

Abstract

Puccinia striiformis f. sp. tritici (Pst) secretes an array of specific effector proteins to manipulate host immunity and promote pathogen colonization. In a previous study, we functionally characterized a glycine-serine-rich effector PstGSRE1 with a glycine-serine-rich motif (m9). However, the mechanisms of glycine-serine-rich effectors (GSREs) remain obscure. Here we report a new glycine-serine-rich effector, PstGSRE4, which has no m9-like motif but inhibits the enzyme activity of wheat copper zinc superoxide dismutase TaCZSOD2, which acts as a positive regulator of wheat resistance to Pst. By inhibiting the enzyme activity of TaCZSOD2, PstGSRE4 reduces H2O2 accumulation and HR areas to facilitate Pst infection. These findings provide new insights into the molecular mechanisms of GSREs of rust fungi in regulating plant immunity.

Topics & Concepts

EffectorSerineGlycineSuperoxide dismutaseBiochemistryBiologyEnzymeImmunityChemistryMicrobiologyCell biologyAmino acidImmune systemGeneticsPlant-Microbe Interactions and ImmunityPlant Stress Responses and ToleranceFungal and yeast genetics research
Glycine-serine-rich effector PstGSRE4 in Puccinia striiformis f. sp. tritici inhibits the activity of copper zinc superoxide dismutase to modulate immunity in wheat | Litcius