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W22383209 abstract "H2O2 is a recognized signal in activation of defence mechanisms in response to various stresses, and its accumulation is thus tightly controlled by plant antioxidant systems. Because H2O2 signals may be transmitted by thiol-dependent processes, glutathione status could play an important role. While the antioxidant role of this compound is long established, the importance of glutathione in signaling remains unclear. To study this question, this work exploited a stress mimic mutant, cat2, which has a defect in metabolism of peroxisomal H2O2 that conditionally leads to oxidation and accumulation of glutathione. In cat2, changes in glutathione are accompanied by activation of both salicylic acid (SA)-dependent responses and jasmonic acid (JA)-associated genes in a time-dependent manner. This up-regulation of both phytohormone signaling pathway by intracellular oxidative stress can be largely prevented by genetically blocking glutathione accumulation in a double mutant, cat2 cad2, that additionally carries a mutation in the pathway of glutathione synthesis. Contrasting phenotypes between cat2 cad2 and cat2 gr1, in which loss of GR1 activity exacerbates oxidative stress, suggest that glutathione-dependent processes couple H2O2 to activation of SA-dependent pathogenesis responses through an effect that is additional to glutathione antioxidant functions. Direct comparison of cat2 cad2 and cat2 npr1 double mutants suggests that the effects of blocking glutathione accumulation on cat2-triggered up-regulation of both SA and JA pathways are not mediated by defective NPR1 function. Autophagy has been implicated in processes such as senescence, and may interact with oxidative stress and SA signaling. To explore relationships between autophagy and oxidative stress, selected atg mutants were crossed with cat2. Phenotypic analysis revealed that SA-dependent lesion spread observed in cat2 grown in long days is similar in three cat2 atg double mutants, whereas increased peroxisomal H2O2 availability in cat2 delays an oxidative stress related-senescence triggered by atg in short days. Overall, the work suggests that (1) novel glutathione-dependent functions are important to couple intracellular H2O2 availability to the activation of both SA and JA signaling pathways and (2) H2O2 produced through photorespiration may play an antagonistic role in the early senescence phenotype observed in atg mutants." @default.
W22383209 created "2016-06-24" @default.
W22383209 creator A5005458346 @default.
W22383209 date "2012-12-21" @default.
W22383209 modified "2023-09-27" @default.
W22383209 title "Functional analysis of glutathione and autophagy in response to oxidative stress" @default.
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