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Identification of oxalate oxidase in rice defence system against rice blast

Published online by Cambridge University Press:  12 February 2007

Feng Jie*
Affiliation:
Institute of Plant Protection, Chinese Academy of Agricultural Sciences, The State Key Laboratory for Biology of Plant Diseases and Insect Pests, Beijing 100094, China
Takano Makoto
Affiliation:
National Institute of Agrobiological Sciences, Tsukuba 305-0856, Japan
*
*Corresponding author: fengjiell@hotmail.com

Abstract

A rice cDNA library was screened using OSK3 protein kinase as bait in a yeast two-hybrid system. The gene encoding oxalate oxidase was one of the positive clones interacting with OSK3 protein kinase. The interactions were verified by detecting expression of the reporter gene lacZ. The results suggest that oxalate oxidase is a downstream element in the disease resistance signal cascade mediated by OSK3 protein kinase in rice.

Type
Research Article
Copyright
Copyright © China Agricultural University and Cambridge University Press 2004

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References

Baker, CJ and Orlandi, EW (1995) Active oxygen in plant pathogenesis. Annual Review of Phytopathology 33, 299321.Google Scholar
Bradley, DJ, Kjellbom, P and Lamb, CJ (1992) Elicitor- and wound-induced oxidative cross-linking of a proline-rich plant cell wall protein: a novel, rapid defense response. Cell 70, 2127.Google Scholar
Brisson, LF, Tenhaken, R and Lamb, CJ (1994) Function of oxidative cross-linking of cell wall structural proteins in plant disease resistance. Plant Cell 6, 17031712.Google Scholar
Low, PS and Merida, JR (1996) The oxidative burst in plant defense: function and signal transduction. Physiologia Plantarum 96, 533542.CrossRefGoogle Scholar
Levine, A, Tenhaken, R, Dixon, R and Lamb, C (1994) H 2 O 2 from the oxidative burst orchestrates the plant hypersensitive disease resistance response. Cell 79, 583590.Google Scholar
Peng, M and Kuc, J (1992) Peroxidase-generated hydrogen peroxide as a source of antifungal activity in vitro and on tobacco leaf discs Phytopathology 82, 696699.Google Scholar
Schweizer, P, Vallelian-Bindschedler, L and Mosinger, E (1995) Heat-induced resistance in barley to the powdery mildew fungus Erysiphe graminis f.sp. hordei. Physiological and Molecular Plant Pathology 47, 5166.Google Scholar
Stermer, BA and Hammerschmidt, R (1987) Association of heat shock induced resistance to disease with increased accumulation of insoluble extension and ethylene synthesis. Physiological and Molecular Plant Pathology 31, 453461.CrossRefGoogle Scholar
Takano, M, Kajiya-Kanegae, H, Funatsuki, H and Kikuchi, S (1998) Rice has two distinct classes of protein kinase genes related to SNF1 of Saccharomyces cereviaiae, which are differently regulated in early seed development. Molecular & General Genetics 260, 388394.CrossRefGoogle Scholar
Vallelian-Bindschedler, L, Mosinger, E, Metraux, JP and Schweizer, P (1998) Structure, expression and localization of a germin-like protein in barley ( Hordeum vulgare L.) that is insolubilized in stressed leaves. Plant Molecular Biology 37, 297308.Google Scholar
Wei, YD, Zhang, ZG, Andersen, CH, Schmelzer, E, Gregersen, PL and Collinge, DB et al. (1998) An epidermis/papilla-specific oxalate oxidase-like protein in defence response of barley attacked by the powdery mildew fungus. Plant Molecular Biology 36, 101112.Google Scholar
Wu, G, Shortt, BJ, Lawrence, EB, Levine, EB, Fitzsimmons, KC and Shah, DM (1995) Disease resistance conferred by expression of a gene encoding H 2 O 2 -generating glucose oxidase in transgenic potato plants. Plant Cell 7, 13571370.Google Scholar
Wu, JL, Sinha, PK, Variar, M, Zheng, KL, Leach, JE and Courtois, B et al. (2004) Association between molecular markers and blast resistance in an advanced backcross population of rice. Theoretical and Applied Genetics 108, 10241032Google Scholar