N-cyanomethyl-2-chloroisonicotmamide induces systemic acquired resistance in arabidopsis without salicylic acid accumulation

Bioscience, Biotechnology and Biochemistry

Volumn 67, Issue 2, 2003, Pages 322-328

  Yasuda, Michiko ^a,b,c   Nakashita, Hideo ^a   Hasegawa, Satoru ^a,e   Nishioka, Masanori ^a,d   Arai, Yuko ^a,c   Uramoto, Masakazu ^e   Yamaguchi, Isamu ^a,b,c   Yoshida, Shigeo ^a,b,c  

^a RIKEN   (Japan)

^b RIKEN Center for Sustainable Resource Science   (Japan)

^c SAITAMA UNIVERSITY   (Japan)

^d NISSAN CHEMICAL INDUSTRIES LTD   (Japan)

^e TAMAGAWA UNIVERSITY   (Japan)

Author keywords

Arabidopsis; PR protein; Pseudomonas syringae; Salycilic acid; Systemic acquired resistance

Indexed keywords

DRUG DERIVATIVE; N CYANOMETHYL 2 CHLOROISONICOTINAMIDE; N-CYANOMETHYL-2-CHLOROISONICOTINAMIDE; NICOTINAMIDE; SALICYLIC ACID; VEGETABLE PROTEIN;

ARABIDOPSIS; ARTICLE; DRUG EFFECT; GENE EXPRESSION REGULATION; GENETICS; IMMUNOLOGY; INNATE IMMUNITY; METABOLISM; PATHOGENICITY; PLANT DISEASE; PLANT LEAF; PSEUDOMONAS; SIGNAL TRANSDUCTION; TRANSGENIC PLANT;

ARABIDOPSIS; GENE EXPRESSION REGULATION, PLANT; IMMUNITY, NATURAL; NIACINAMIDE; PLANT DISEASES; PLANT LEAVES; PLANT PROTEINS; PLANTS, GENETICALLY MODIFIED; PSEUDOMONAS; SALICYLIC ACID; SIGNAL TRANSDUCTION;

ARABIDOPSIS; BACTERIA (MICROORGANISMS); LYCOPERSICON ESCULENTUM; NICOTIANA TABACUM; PSEUDOMONAS; PSEUDOMONAS SYRINGAE; PSEUDOMONAS SYRINGAE PV. TOMATO;

EID: 0041626177     PISSN: 09168451     EISSN: 13476947     Source Type: Journal    
DOI: 10.1271/bbb.67.322     Document Type: Article

References (22)

1. Chester, K. S., The problem of acquired physiological immunity in plants. Q. Rev. Biol., 8, 275-324 (1933).
2. Durner, J., Shah, J., and Klessig, D. F., Salicylic acid and disease resistance in plants. Trends Plant Sci., 2, 266-274 (1997).
3. Delaney, T. P., Uknes, S., Vernooij, B., Friedrich, L., Weymann, K., Negrotto, D., Gaffney, T., Gut-Rella, M., Kessmann, H., Ward, E., and Ryals, J., A central role of salicylic acid in plant disease resistance. Science, 266, 1247-1250 (1994).
4. Gaffney, T., Friedrich, L., Vernooij, B., Negrotto, D., Nye, G., Uknes, S., Ward, E., Kessmann, H., and Ryals, J., Requirement of salicylic acid for the induction of systemic acquired resistance. Science, 261, 745-756 (1993).
5. Metraux, J. P., Signer, H., Ryals, J., Ward, E., Benz, W. M., Gaudin, J., Raschdorf, K., Schmid, E., Blum, W., and Inverardi, B., Increase in salicylic acid at the onset of systemic acquired resistance in cucumber. Science, 250, 1004-1006 (1990).
6. Ward, E. R., Uknes, S. J., Williams, S. C., Dincher, S. S., Wiederhold, D. L., Alexander, D. C., Ahl-Goy, P., Metraux, J. P., and Ryals, J. A., Coordinate gene activity in response to agents that induce systemic acquired resistance. Plant Cell, 3, 1085-1094 (1991).
7. Lawton, K. A., Friedrich, L., Hunt, M., Weymann, K., Dalaney, T., Kessmann, H., Staub, T., and Ryals, J., Benzothiadiazole induces disease resistance in Arabidopsis by activation of the systemic acquired resistance signal transduction pathway. Plant J., 10, 71-82 (1996).
8. Uknes, S., Mauch-Mani, B., Moyer, M., Potter, S., Williams, S., Dincher, S., Chandler, D., Slusarenko, A., Ward, E., and Ryals, J., Acquired resistance in Arabidopsis. Plant Cell, 4, 645-656 (1992).
9. Vernooij, B., Friedrich, L., Ahl-Goy, P., Staub, T., and Kessmann, H., 2,6-Dichloroisonicotinic acid-induced resistance to pathogen without the accumulation of salicylic acid. Mol. Plant-Microbe Interact., 8, 228-234 (1995).
10. Nakashita, H., Yoshioka, K., Takayama, M., Kuga, R., Midoh, N., Usami, R., Horikoshi, K., Yoneya-ma, K., and Yamaguchi, I., Characterization of PBZ1, probenazole-inducible gene, in suspension-cultured rice cells. Biosci. Biotechnol. Biochem., 65, 205-208 (2001).
11. Yoshioka, K., Nakashita, H., Klessig, D. F., and Yamaguchi, I., Probenazole induces systemic acquired resistance in Arabidopsis with a novel type of action. Plant J., 25, 149-157 (2001).
12. Yoshida, H., Konishi, K., Koike, K., Nakagawa, T., Sekido, S., and Yamaguchi, I., Effect of N-cyanomethyl-2-chloroisonicotinamide for control of rice blast. J. Pesticide. Sci., 15, 413-417 (1990).
13. Nakashita, H., Yasuda, M., Hasegawa, S., Nishioka, M., Arai, Y., and Yamaguchi, I., Chloroisonico-tinamide derivative induces a broad range of disease resistance in rice and tobacco. Plant Cell Physiol., 43, 823-831 (2002).
14. Nakashita, H., Yoshioka, K., Yasuda, M., Nitta, T., Arai, Y., Yoshida, S., and Yamaguchi, I., Probenazol induces systemic acquired resistance in tobacco through salicylic acid accumlation. Physiological and Molecular Plant Pathology, 61, 197-203 (2002).
15. Cameron, R. K., Dixon, R. A., and Lamb, C. J., Biologically induced systemic acquired resistance in Arabidopsis thaliana. Plant J., 5, 715-725 (1994).
16. Cao, H., Bowling, S. A., Gordon, A. S., and Dong, X., Characterization of an Arabidopsis mutant that is nonresponsive to inducers of systemic acquired resistance. Plant Cell, 6, 1583-1592 (1994).
17. Delaney, T. P., Friedrich, L., and Ryals, J. A., Arabidopsis signal transduction mutant defective in chemically and biologically induced disease resistance. Proc. Natl. Acad. Sci. USA, 92, 6602-6606 (1995).
18. Shah, J., Tsui, F., and Klessig, D. F., Characterization of a salicylic acid-insensitive mutant saiof Arabidopsis thaliana, identified in a selective screen utilizing the SA-inducible expression of the tms2 gene. Mol. Plant-Microbe Interact., 10, 69-78 (1997).
19. Guzman, P., and Ecker, J. R., Exploiting the triple response of Arabidopsis to identify ethylene-related mutants. Plant Cell, 2, 513-523 (1990).
20. Bleecker, A. B., Estelle, M. A., Somerville, C., and Kende, H., Insensitivity to ethylene conferred by a dominant mutation in Arabidopsis thaliana. Science, 241, 1086-1089 (1988).
21. Xie, D. X., Feys, B. F., James, S., Nieto-Rostro, M., and Turner, G., COI1: an Arabidopsis gene required for jasmonate-regulated defense and fertility. Science, 280, 1091-1094 (1998).
22. Spoel, S., Koornneef, A., van Loon, L. C., Dong, X., and Pieterse, C. M. J., NPR1 modulates cross talk between SA- and JA-dependent plant defense pathways through a novel function in the cytosol. 13th International Conference on Arabidopsis Research, 6-17 (2002)