期刊
PLANT CELL AND ENVIRONMENT
卷 38, 期 3, 页码 499-513出版社
WILEY
DOI: 10.1111/pce.12409
关键词
Oryza sativa; ascorbate peroxidase; H2O2 homeostasis; oxidative stress; photorespiration; signalling
资金
- Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) [Proc. 486231-2012-7]
The physiological role of peroxisomal ascorbate peroxidases (pAPX) is unknown; therefore, we utilized pAPX4 knockdown rice and catalase (CAT) inhibition to assess its role in CAT compensation under high photorespiration. pAPX4 knockdown induced co-suppression in the expression of pAPX3. The rice mutants exhibited metabolic changes such as lower CAT and glycolate oxidase (GO) activities and reduced glyoxylate content; however, APX activity was not altered. CAT inhibition triggered different changes in the expression of CAT, APX and glutathione peroxidase (GPX) isoforms between non-transformed (NT) and silenced plants. These responses were associated with alterations in APX, GPX and GO activities, suggesting redox homeostasis differences. The glutathione oxidation-reduction states were modulated differently in mutants, and the ascorbate redox state was greatly affected in both genotypes. The pAPX suffered less oxidative stress and photosystem II (PSII) damage and displayed higher photosynthesis than the NT plants. The improved acclimation exhibited by the pAPX plants was indicated by lower H2O2 accumulation, which was associated with lower GO activity and glyoxylate content. The suppression of both pAPXs and/or its downstream metabolic and molecular effects may trigger favourable antioxidant and compensatory mechanisms to cope with CAT deficiency. This physiological acclimation may involve signalling by peroxisomal H2O2, which minimized the photorespiration. The peroxisomal APX encoded protein has an unknown role in plants; Peroxisomal APX silenced rice plants were more acclimated to high photorespiration under catalase deficiency; The physiological acclimation displayed by peroxisomal APX may involve signaling by peroxisomal H2O2, which minimized the photorespiration.
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