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Bacterial blight caused by Xanthomonas oryzae pv oryzae ( Xoo ) causes severe damage to rice ( Oryza sativa ) production worldwide. The major disease resistance gene, Xa3/Xa26 , confers broad-spectrum and durable resistance to Xoo at both seedling and adult stages. However, the molecular mechanism of the Xa3/Xa26 -initiated defense pathway against Xoo is still largely unknown. Here, we show that a triosephosphate isomerase (TPI), OsTPI1.1, is a key component in XA3/XA26-mediated resistance to Xoo OsTPI1.1 is a glycolytic enzyme that catalyzes the reversible interconversion of dihydroxyacetone phosphate to glyceraldehyde-3-phosphate. Transcriptional suppression of OsTPI1.1 in plants harboring Xa3/Xa26 largely impaired the XA3/XA26-mediated resistance to Xoo , and constitutive overexpression of OsTPI1.1 in susceptible rice plants without Xa3/Xa26 only slightly decreased the susceptibility to Xoo Therefore, both XA3/XA26 and OsTPI1.1 are required in XA3/XA26-mediated resistance. We show that OsTPI1.1 participates in the resistance through its enzymatic activity, which was enhanced significantly by its binding with XA3/XA26. Reactive oxygen species (ROS), especially hydrogen peroxide, accumulated in the OsTPI1.1-overexpressing plants, and suppression of OsTPI1.1 decreased ROS accumulation. The changes in ROS are associated with the reduction of NADP + to NADPH, which may act as a redox cofactor to scavenge ROS, leading to reduced resistance to Xoo These results suggest that OsTPI1.1 modulates ROS production as a resistance mechanism against Xoo .

A Cytosolic Triosephosphate Isomerase Is a Key Component in XA3/XA26-Mediated Resistance