The infection-induced overproduction of reactive oxygen species (ROS) in resistant plants is usually ascribed to the host. Here we tested the possible contribution of the parasite, the rice blast fungus to ROS production. Droplets of spore suspensions or water were kept on rice leaves or on a plastic. After one day, superoxide radical and hydrogen peroxide were chemically assayed in drop diffusates. Similar measurements were done on diffusates of rice calli submerged in spore suspension or water. Negligible amounts of ROS were found in diffusates of plant tissues treated with water. In contrast, diffusates from tissues treated with spore suspensions had appreciable levels of ROS, usually higher in incompatible combinations than in compatible ones. However, diffusates of spores incubated on plastic produced ROS to an extent comparable to those of infected tissues. In diffusates of spores, O 2− was found after their germination, and H 2 O 2 was found after appressorium formation. Various fungal strains differed in ROS production. The results suggest that spores of the blast inoculum may contribute significantly to ROS production on rice leaves, at least, at early stages of the disease. This might be a factor of incompatibility suppressing a parasite and/or inducing defense responses of a host.
-
Apel, K. and Hirt, H. (2004): Reactive oxygen species: metabolism, oxidative stress, and signal transduction. Annu. Rev. Plant Biol. 22, 373–399.
Hirt H. , 'Reactive oxygen species: metabolism, oxidative stress, and signal transduction ' (2004 ) 22 Annu. Rev. Plant Biol. : 373 -399.
-
Aver’yanov, A. A. and Lapikova, V. P. (1989): Simple devices for work with drop diffusates of plants. Biologicheskie Nauki (Biological Sciences, in Russian) N9, 107–111.
Lapikova V. P. , 'Simple devices for work with drop diffusates of plants ' (1989 ) N9 Biologicheskie Nauki (Biological Sciences, in Russian) : 107 -111.
-
Aver’yanov, A. A. and Lapikova, V. P. (1990): Activated oxygen as a possible factor in the autoinhibition of spore germination of the fungus Pyricularia oryzae . Biochemistry-USSR. 55, 1397–1402.
Lapikova V. P. , 'Activated oxygen as a possible factor in the autoinhibition of spore germination of the fungus Pyricularia oryzae ' (1990 ) 55 Biochemistry-USSR. : 1397 -1402.
-
Aver’yanov, A. A., Lapikova, V. P. and Dzhavakhiya, V. G. (1993): Active oxygen mediates heat-induced resistance of rice plant to blast disease. Plant Sci. 92, 27–34.
Dzhavakhiya V. G. , 'Active oxygen mediates heat-induced resistance of rice plant to blast disease ' (1993 ) 92 Plant Sci. : 27 -34.
-
Aver’yanov, A. A., Pasechnik, T. D., Lapikova, V. P. and Gaivoronskaya, L. M. (2001): Fungitoxic responses of rice callus culture as an expression of inheritable resistance to blast. Implication of active oxygen. Plant Physiol. Biochem. 39, 415–424.
Gaivoronskaya L. M. , 'Fungitoxic responses of rice callus culture as an expression of inheritable resistance to blast. Implication of active oxygen ' (2001 ) 39 Plant Physiol. Biochem. : 415 -424.
-
Baker, C. J., Mock, N., Deahl, K. L., Bailey, B. and Roberts, D. R. (2001): Oxidative metabolism in plant/bacteria interactions: characterization of the oxygen uptake response of bacteria. Physiol. Mol. Plant Pathol. 59, 17–23.
Roberts D. R. , 'Oxidative metabolism in plant/bacteria interactions: characterization of the oxygen uptake response of bacteria ' (2001 ) 59 Physiol. Mol. Plant Pathol. : 17 -23.
-
Baker, C. J. and Orlandi, E. W. (1995): Active oxygen in plant pathogenesis. Annu. Rev. Phytopathol. 33, 299–321.
Orlandi E. W. , 'Active oxygen in plant pathogenesis ' (1995 ) 33 Annu. Rev. Phytopathol. : 299 -321.
-
Belyanskaya, S. L. and Shamina, Z. B. (1993): Obtainment and characterization of rice clones resistant to stress factors. Russ. J. Plant Physiol. 40, 600–604.
Shamina Z. B. , 'Obtainment and characterization of rice clones resistant to stress factors ' (1993 ) 40 Russ. J. Plant Physiol. : 600 -604.
-
Bors, W., Michel, C., Saran, M. and Lengfelder, E. (1978): The involvement of oxygen radicals during the autoxidation of adrenalin. Biochim. Biophys. Acta 540, 162–172.
Lengfelder E. , 'The involvement of oxygen radicals during the autoxidation of adrenalin ' (1978 ) 540 Biochim. Biophys. Acta : 162 -172.
-
Chai, H. B. and Doke, N. (1987): Superoxide anion generation: a response of potato leaves to infection with Phytophthora infestans . Phytopathology 77, 645–649.
Doke N. , 'Superoxide anion generation: a response of potato leaves to infection with Phytophthora infestans ' (1987 ) 77 Phytopathology : 645 -649.
-
Daub, M. E. (1987): The fungal photosensitizer cercosporin and its role in plant disease. In: J. R. Heitz and K. R. Downum (eds): Light Activated Pesticides. Amer. Chem. Soc., Washington, DC, pp. 271–280.
Daub M. E. , '', in Light Activated Pesticides , (1987 ) -.
-
Doke, N., Park, H. J., Katou, S., Komatsubara, H., Makino, T., Ban, S., Sugie, K., Yoshioka, H. and Kawakita, K. (2001): The oxidative burst in plants: mechanism and function in induced resistance. In: N. Keen, S. Mayama, J. E. Leach and S. Tsuyumu (eds): Delivery and Perception of Pathogen Signals in Plants. APS Press, St. Paul, pp. 184–193.
Kawakita K. , '', in Delivery and Perception of Pathogen Signals in Plants , (2001 ) -.
-
Doke, N. (1983): Involvement of superoxide anion generation in the hypersensitive response of potato tuber tissues to infection with an incompatible race of Phytophthore infestans and to the hyphal wall components. Physiol. Plant Phathol. 23, 345–357.
Doke N. , 'Involvement of superoxide anion generation in the hypersensitive response of potato tuber tissues to infection with an incompatible race of Phytophthore infestans and to the hyphal wall components ' (1983 ) 23 Physiol. Plant Phathol. : 345 -357.
-
Fravel, D. R. and Roberts, D. R. (1991): In situ evidence for the role of glucose oxidase in the biocontrol of Verticillium wilt by Talaromyces flavus . Biocontrol Sci. and Technol. 1, 91–99.
Roberts D. R. , 'In situ evidence for the role of glucose oxidase in the biocontrol of Verticillium wilt by Talaromyces flavus ' (1991 ) 1 Biocontrol Sci. and Technol. : 91 -99.
-
Frimer, A. A., Forman, A. and Borg, D. C. (1983): H 2 O 2 -diffusion through liposomes. Isr. J. Chem. 23, 442–445.
Borg D. C. , 'H2O2-diffusion through liposomes ' (1983 ) 23 Isr. J. Chem. : 442 -445.
-
Govrin, E. M. and Levine, A. (2000): The hypersensitive response facilitaties plant infection by the necrotrophic pathogen Botrytis cinerea . Curr. Biol. 10, 751–757.
Levine A. , 'The hypersensitive response facilitaties plant infection by the necrotrophic pathogen Botrytis cinerea ' (2000 ) 10 Curr. Biol. : 751 -757.
-
Hammel, K. E., Kapich, A. N., Jensen, K. A., Jr. and Ryan, Z. C. (2002): Reactive oxygen species as agents of wood decay by fungi. Enzyme and Microbial Technology 30, 445–453.
Ryan Z. C. , 'Reactive oxygen species as agents of wood decay by fungi ' (2002 ) 30 Enzyme and Microbial Technology : 445 -453.
-
Hayashi, N., Ando, I. and Imbe, T. (1998): Identification of a new resistance gene to a Chinese blast fungus isolate in the Japanese rice cultivar Aishi Asahi. Phytopathology 88, 822–827.
Imbe T. , 'Identification of a new resistance gene to a Chinese blast fungus isolate in the Japanese rice cultivar Aishi Asahi ' (1998 ) 88 Phytopathology : 822 -827.
-
Heiser, I., Osswald, W. and Elstner, E. F. (1998): The formation of reactive oxygen species by fungal and bacterial phytotoxins. Plant Physiol. Biochem. 36, 703–713.
Elstner E. F. , 'The formation of reactive oxygen species by fungal and bacterial phytotoxins ' (1998 ) 36 Plant Physiol. Biochem. : 703 -713.
-
Kiyosawa, S. (1976): Method for testing and gene analyses of blast resistance of rice varieties. Oryza 13, 1–32.
Kiyosawa S. , 'Method for testing and gene analyses of blast resistance of rice varieties ' (1976 ) 13 Oryza : 1 -32.
-
Lapikova, V. P., Aver’yanov, A. A. and Pasechnik, T. D. (1995): Devices for the preparation of drop diffusates of cereal leaves. Mikologia i Fitopatologia (Mycology and Phytopathology, in Russian) 29, 44–47.
Pasechnik T. D. , 'Devices for the preparation of drop diffusates of cereal leaves ' (1995 ) 29 Mikologia i Fitopatologia : 44 -47.
-
Latterel, F. M., Marchetti, M. A. and Grove, B. R. (1965): Co-ordination of effort to establish an international system for race identification in Piricularia oryzae . In: R. F. Chandler (ed.): The Rice Blast Disease. The Johns Hopkins Press, Baltimore, pp. 257–274.
Grove B. R. , '', in The Rice Blast Disease , (1965 ) -.
-
Nathues, E., Joshi, S., Tenberge, K. B., Driessch, M. V. D., Oeser, B., Bäumer, N., Mihlan, M. and Tudzynski, P. (2004): CPTF1, a CREB-like transcription factor, is involved in the oxidative stress response in the phytopathogen Claviceps purpurea and modulates ROS level in its host Secale cereale . Mol. Plant Microbe Interact. 17, 383–393.
Tudzynski P. , 'CPTF1, a CREB-like transcription factor, is involved in the oxidative stress response in the phytopathogen Claviceps purpurea and modulates ROS level in its host Secale cereale ' (2004 ) 17 Mol. Plant Microbe Interact. : 383 -393.
-
Nikolaev, O. N., Aver’yanov, A. A., Lapikova, V. P. and Djavakhia, V. G. (1994): Possible involvement of reactive oxygen species in action of some anti-blast fungicides. Pesic. Biochem. Physiol. 50, 219–228.
Djavakhia V. G. , 'Possible involvement of reactive oxygen species in action of some anti-blast fungicides ' (1994 ) 50 Pesic. Biochem. Physiol. : 219 -228.
-
Silué, D., Notteghem, J. L. and Tharreau, D. (1992): Evidence of a gene-for-gene relationship in the Oryza sativa — Magnaporthe grisea pathosystem. Phytopathology 82, 577–580.
Tharreau D. , 'Evidence of a gene-for-gene relationship in the Oryza sativa — Magnaporthe grisea pathosystem ' (1992 ) 82 Phytopathology : 577 -580.
-
Tenberge, K. B., Beckedorf, M., Hoppe, B., Schouten, A., Solf, M. and Driesch, M. V. D. (2002): In situ localization of AOS in host-pathogen interactions. Microsc. Microanal. 8, 250–251.
Driesch M. V. D. , 'In situ localization of AOS in host-pathogen interactions ' (2002 ) 8 Microsc. Microanal. : 250 -251.
-
Toth, K. M., Harlan, J. M., Beehler, C. J., Berger, E. M., Parker, N. B., Linas, S. L. and Repine, J. E. (1989): Dimethylthiourea prevents hydrogen peroxide and neutrophil mediated damage to lung endothelial cells in vitro and disappears in the process. Free Radic. Biol. Med. 6, 457–466.
Repine J. E. , 'Dimethylthiourea prevents hydrogen peroxide and neutrophil mediated damage to lung endothelial cells in vitro and disappears in the process ' (1989 ) 6 Free Radic. Biol. Med. : 457 -466.
-
Unger, C., Kleta, S., Jandl, G. and Tiedemann, A. V. (2005): Suppression of the defence-related oxidative burst in bean leaf tissue and bean suspension cells by the necrotrophic pathogen Botrytis cinerea . J. Phytopathol. 153, 15–26.
Tiedemann A. V. , 'Suppression of the defence-related oxidative burst in bean leaf tissue and bean suspension cells by the necrotrophic pathogen Botrytis cinerea ' (2005 ) 153 J. Phytopathol. : 15 -26.
Monthly Content Usage
| Abstract Views | Full Text Views | PDF Downloads | |
|---|---|---|---|
| Aug 2020 | 20 | 0 | 0 |
| Sep 2020 | 6 | 0 | 0 |
| Oct 2020 | 0 | 0 | 0 |
| Nov 2020 | 1 | 0 | 0 |
| Dec 2020 | 0 | 0 | 0 |
| Jan 2021 | 0 | 0 | 0 |
| Feb 2021 | 0 | 0 | 0 |
Copyright Akadémiai Kiadó
AKJournals is the trademark of Akadémiai Kiadó's journal publishing business branch.
Copyright Akadémiai Kiadó AKJournals is the trademark of Akadémiai Kiadó's journal publishing business branch.
Powered by PubFactory