par Launay, Alban;Jolivet, Sylvie;Clement, Gilles;Zarattini, Marco 
;Dellero, Younes;Le Hir, Rozenn;Jossier, Mathieu;Hodges, Michael;Expert, Dominique;Fagard, Mathilde
Référence International journal of molecular sciences, 23, 8, page (4224)
Publication Publié, 2022-04-01
;Dellero, Younes;Le Hir, Rozenn;Jossier, Mathieu;Hodges, Michael;Expert, Dominique;Fagard, MathildeRéférence International journal of molecular sciences, 23, 8, page (4224)
Publication Publié, 2022-04-01
Article révisé par les pairs
| Résumé : | DspA/E is a type three effector injected by the pathogenic bacterium Erwinia amylovora inside plant cells. In non-host Arabidopsis thaliana, DspA/E inhibits seed germination, root growth, de novo protein synthesis and triggers localized cell death. To better understand the mechanisms involved, we performed EMS mutagenesis on a transgenic line, 13-1-2, containing an inducible dspA/E gene. We identified three suppressor mutants, two of which belonged to the same complementation group. Both were resistant to the toxic effects of DspA/E. Metabolome analysis showed that the 13-1-2 line was depleted in metabolites of the TCA cycle and accumulated metabolites associated with cell death and defense. TCA cycle and cell-death associated metabolite levels were respectively increased and reduced in both suppressor mutants compared to the 13-1-2 line. Whole genome sequencing indicated that both suppressor mutants displayed missense mutations in conserved residues of Glycolate oxidase 2 (GOX2), a photorespiratory enzyme that we confirmed to be localized in the peroxisome. Leaf GOX activity increased in leaves infected with E. amylovora in a DspA/E-dependent manner. Moreover, the gox2-2 KO mutant was more sensitive to E. amylovora infection and displayed reduced JA-signaling. Our results point to a role for glycolate oxidase in type II non-host resistance and to the importance of central metabolic functions in controlling growth/defense balance. |
