Cytoplasmic H2O2 prevents translocation of NPR1 to the nucleus and inhibits the induction of PR genes in Arabidopsis

Plant Signaling and Behavior

Volumn 5, Issue 11, 2010, Pages 1401-1406

  Peleg Grossman, Smadar ^a   Melamed Book, Naomi ^a   Cohen, Gil ^a   Levine, Alex ^a  

^a HEBREW UNIVERSITY OF JERUSALEM   (Israel)

Author keywords

Catalase; Hydrogen peroxide; NPR1; Pathogenesis; PR1; Salicyclic acid

Indexed keywords

ARABIDOPSIS; ARABIDOPSIS THALIANA;

ARABIDOPSIS PROTEIN; HYDROGEN PEROXIDE; NPR1 PROTEIN, ARABIDOPSIS; REACTIVE OXYGEN METABOLITE;

ARABIDOPSIS; ARTICLE; CELL NUCLEUS; CYTOPLASM; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; PHYSIOLOGY; PROTEIN TRANSPORT;

ARABIDOPSIS; ARABIDOPSIS PROTEINS; CELL NUCLEUS; CYTOPLASM; GENE EXPRESSION REGULATION, PLANT; HYDROGEN PEROXIDE; PROTEIN TRANSPORT; REACTIVE OXYGEN SPECIES;

EID: 78650149080     PISSN: 15592316     EISSN: 15592324     Source Type: Journal    
DOI: 10.4161/psb.5.11.13209     Document Type: Article

References (27)

1. Flor HH. Current status of the gene-for-gene concept. Ann Rev Phytopathol 1971; 9:275-96.
2. Keen NT. Gene-for-gene complementarity in plantpathogen interactions. Annu Rev Genet 1990; 24:447-63.
3. Glazebrook J. Genes controlling expression of defense responses in Arabidopsis-2001 status. Curr Opin Plant Biol 2001; 4:301-8.
4. Romeis T, Piedras P, Jones JDG. Resistance genedependent activation of a calcium-dependent protein kinase in the plant defense response. Plant Cell 2000; 12:803-15.
5. Greenberg JT. Programmed cell death in plant-pathogen interactions. Annu Rev Plant Physiol Plant Mol Biol 1997; 48:525-45.
6. Ryals JA, Neuenschwander UH, Willits MG, Molina A, Steiner HY, Hunt MD. Systemic acquired resistance. Plant Cell 1996; 8:1809-19.
7. Durrant WE, Dong X. Systemic acquired resistance. Ann Rev Phytopathol 2004; 42:185-209.
8. DebRoy S, Thilmony R, Kwack YB, Nomura K, He SY. A family of conserved bacterial effectors inhibits salicylic acid-mediated basal immunity and promotes disease necrosis in plants. PNAS 2004; 101:9927-32.
9. Rochon A, Boyle P, Wignes T, Fobert PR, Despres C. The coactivator function of Arabidopsis NPR1 requires the core of Its BTB/POZ domain and the oxidation of C-terminal cysteines. Plant Cell 2006; 18:3670-85.
10. Mou Z, Fan W, Dong X. Inducers of Plant Systemic Acquired Resistance Regulate NPR1 Function through Redox Changes. Cell 2003; 113:935-44.
11. Chern MS, Fitzgerald HA, Yadav RC, Canlas PE, Dong X, Ronald PC. Evidence for a disease-resistance pathway in rice similar to the NPR1-mediated signaling pathway in Arabidopsis. Plant J 2001; 27:101-13.
12. Despres C, DeLong C, Glaze S, Liu E, Fobert PR. The Arabidopsis NPR1/NIM1 Protein Enhances the DNA Binding Activity of a Subgroup of the TGA Family of bZIP Transcription Factors. Plant Cell 2000; 12:279-90.
13. Zhang Y, Fan W, Kinkema M, Li X, Dong X. Interaction of NPR1 with basic leucine zipper protein transcription factors that bind sequences required for salicylic acid induction of the PR-1 gene. PNAS 1999; 96:6523-8.
14. Glazebrook J. Contrasting mechanisms of defense against biotrophic and necrotrophic pathogens. Ann Rev Phytopathol 2005; 43:205-27.
15. Cumming RC, Andon NL, Haynes PA, Park M, Fischer WH, Schubert D. Protein Disulfide Bond Formation in the Cytoplasm during Oxidative Stress. J Biol Chem 2004; 279:21749-58.
16. Peleg-Grossman S, Golani Y, Kaye Y, Melamed-Book N, Levine A. NPR1 Protein Regulates Pathogenic and Symbiotic Interactions between Rhizobium and Legumes and Non-Legumes. PLoS ONE 2009; 4:8399-409.
17. Chamnongpol S, Willekens H, Langebartels C, Vanmontagu M, Inze D, Vancamp W. Transgenic tobacco with a reduced Catalase activity develops necrotic lesions and induces pathogenesis-related expression under high light. Plant J 1996; 10:491-503.
18. Rizhsky L, Hallak-Herr E, Van Breusegem F, Rachmilevitch S, Barr JE, Rodermel S, et al. Double antisense plants lacking ascorbate peroxidase and catalase are less sensitive to oxidative stress than single antisense plants lacking ascorbate peroxidase or catalase. Plant J 2002; 32:329-42.
19. Eckardt NA. A New Twist on Systemic Acquired Resistance: Redox Control of the NPR1-TGA1 Interaction by Salicylic Acid. Plant Cell 2003; 15:1947-9.
20. Nurnberger T. Innate immunity in plants and animals: striking similarities and obvious differences. Immunol Rev 2004; 198:249-66.
21. Singer SR, McDaniel CN. Transport of the Herbicide 3-Amino-1,2,4-Triazole by Cultured Tobacco Cells and Leaf Protoplasts. Plant Physiol 1982; 69:1382-6.
22. Pnueli L, Honigjian L, Mittler R. Growth suppression, altered stomatal responses and augmented induction of heat shock proteins in cytosolic ascorbate peroxidase (Apx1)-deficient Arabidopsis plants. Plant J 2003; 34:187-203.
23. Cao H, Glazebrook J, Clarke JD, Volko S, Dong XN. The Arabidopsis NPR1 gene that controls systemic acquired resistance encodes a novel protein containing ankyrin repeats. Cell 1997; 88:57-63.
24. Mackerness SAH, John CF, Jordan B, Thomas B. Early signaling components in ultraviolet-B responses: distinct roles for different reactive oxygen species and nitric oxide. FEBS Letters 2001; 489:237-42.
25. Blanco F, Garreto V, Frey N, Calixto D, Perez-Acle T, Van der Straeten D, et al. Identification of NPR1- dependent and independent genes early induced by salicylic acid treatment in Arabidopsis. Plant Mol Biol 2005; 59:927-44.
26. Tada Y, Spoel SH, Pajerowska-Mukhtar K, Mou Z, Song J, Wang C, et al. Plant Immunity Requires Conformational Charges of NPR1 via S-Nitrosylation and Thioredoxins. Science 2008; 321:952-6.
27. Peleg-Grossman S, Volpin H, Levine A. Root hair curling and Rhizobium infection in Medicago truncatula are mediated by phosphatidylinositide-regulated endocytosis and reactive oxygen species. J Exp Bot 2007; 58:1637-49.