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Plant physiology, v.134 no.3, 2004년, pp.1017 - 1026
Ryu, Choong-Min (Department of Entomology and Plant Pathology, Auburn University, 209 Life Sciences Building, Auburn, Alabama 36849 (C.-M.R., C.-H.H., M.S.R., J.W.K.)) , Farag, Mohamed A. (and Department of Chemistry and Biochemistry, Texas Tech University, 1 Chemistry Drive) , Hu, Chia-Hui (Lubbock, Texas 79409 (M.A.F., P.W.P.)) , Reddy, Munagala S. (Department of Entomology and Plant Pathology, Auburn University, 209 Life Sciences Building, Auburn, Alabama 36849 (C.-M.R., C.-H.H., M.S.R., J.W.K.)) , Kloepper, Joseph W. (and Department of Chemistry and Biochemistry, Texas Tech University, 1 Chemistry Drive) , Paré, Paul W. (Lubbock, Texas 79409 (M.A.F., P.W.P.))
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AbstractPlant growth-promoting rhizobacteria, in association with plant roots, can trigger induced systemic resistance (ISR). Considering that low-molecular weight volatile hormone analogues such as methyl jasmonate and methyl salicylate can trigger defense responses in plants, we examined whether v...
10.1126/science.284.5423.2148 Alonso JM, Hirayama T, Roman G, Nourizadeh S, Ecker JR (1999) Ein2 a bifunctional transducer of ethylene and stress responses in Arabidopsis. Science 284 : 2148-2152
10.2323/jgam.37.495 Alstro?m S (1991) Induction of disease resistance in common bean susceptible to halo blight bacterial pathogen after seed bacterization with rhizosphere pseudomonads. J Gen Appl Microbiol 37 : 495-501
10.1016/S0305-1978(01)00049-7 Arimura G, Ozawa R, Horiuchi JI, Nishioka T, Takabayashi J (2001) Plant-plant interactions mediated by volatiles emitted from plants infested by spider mites. Biochem System Ecol 29 : 1049-1061
10.1038/35020072 Arimura G, Ozawa R, Shimoda T, Nishioka T, Boland W, Takabayashi J (2000) Herbivory-induced volatiles elicit defense genes in lima bean leaves. Nature 406 : 512-515
10.1007/s004250050242 Benhamou N, Kloepper JW, Tuzun S (1998) Induction of resistance against Fusarium wilt of tomato by combination of chitosan with an endophytic bacterial strain: ultrastructure and cytochemistry of the host response. Planta 204 : 153-168
10.1094/MPMI-5-372 Bent AF, Innes RW, Ecker JR, Staskawicz BJ (1992) Disease development in ethylene-insensitive Arabidopsis thaliana infected with virulent and avirulent Pseudomonas and Xanthomonas pathogens. Mol Plant-Microbe Interact 5 : 372-378
10.1073/pnas.160241697 Birkett MA, Campbell CAM, Chamberlain K, Guerrieri E, Hick AJ, Martin JL, Matthes M, Napier JA, Pettersson J, Pickett JA et al. (2000) New roles for cis-jasmone as an insect semiochemical and in plant defense. Proc Natl Acad Sci USA 97 : 9329-9334
10.1105/tpc.6.12.1845 Bowling SA, Guo A, Cao H, Gordon AS, Klessig DF, Dong X (1994) A mutation in Arabidopsis that leads to constitutive expression of systemic acquired resistance. Plant Cell 6 : 1845-1857
10.1105/tpc.6.11.1583 Cao H, Bowling SA, Gordon SA, Dong X (1994) Characterization of an Arabidopsis mutant that is nonresponsive to inducers of systemic acquired resistance. Plant Cell 6 : 1583-1592
Cleyet-Marcel JC, Larcher M, Bertrand H, Rapior S, Pinochet X (2001) Plant growth enhancement by rhizobacteria. In J-F Morot-Gaudry, ed, Nitrogen Assimilation by Plants, Physiological, Biochemical and Molecular Aspects. Science Publishers, Inc., Enfeld, NH, pp 185-197
10.1104/pp.101.1.13 Croft K, Juttner F, Slusarenko AJ (1993) Volatile Products of the lipoxygenase pathway evolved from Phaseolus vulgaris (L.) leaves inoculated with Pseudomonas syringae pv phaseolicola. Plant Physiol 101 : 13-24
10.1073/pnas.92.14.6602 Delaney TP, Friedrich L, Ryals JA (1995) Arabidopsis signal transduction mutant defective in chemically and biologically induced disease resistance. Proc Natl Acad Sci USA 92 : 6602-6606
10.1016/S0014-5793(03)00426-5 Diaz M, Achkor H, Titarenko E, Martinez MC (2003) The gene encoding glutathione-dependent formaldehyde dehydrogenase/GSNO reductase is responsive to wounding, jasmonic acid and salicylic acid. FEBS Lett 543 : 136-139
10.1016/S1360-1385(97)86349-2 Durner J, Shah J, Klessig DF (1997) Salicylic acid and disease resistance in plants. Trends Plant Sci 2 : 266-274
10.1016/S0031-9422(02)00240-6 Farag MA, Pare? PW (2002) C-6 Green leaf volatiles trigger local and systemic VOC emissions in tomato. Phytochemistry 61 : 545-554
10.1006/pmpp.1998.0192 Fidantsef AL, Stout MJ, Thaler JS, Duffey SS, Bostock RM (1999) Signal interactions in pathogen and insect attack: expression of lipoxygenase, proteinase inhibitor II, and pathogenesis-related protein P4 in the tomato Lycopersicon esculentum. Physiol Mol Plant Pathol 54 : 97-114
10.1016/S0031-9422(98)00550-0 Forlani G, Mantelli M, Nielsen E (1999) Biochemical evidence for multiple acetoin-forming enzymes in cultured plant cells. Phytochemistry 50 : 255-262
10.1046/j.1469-8137.2002.00519.x Gatehouse JA (2002) Plant resistance towards insect herbivores: a dynamic interaction. New Phytol 156 : 145-169
10.1139/m95-015 Glick BR (1995) The enhancement of plant growth by free-living bacteria. Can J Microbiol 41 : 109-117
10.1104/pp.119.3.935 Hoffman T, Schmidt J, Zheng X, Bent A (1999) Isolation of ethylene insensitive soybean mutants that are altered in pathogen susceptibility and gene-for-gene resistance. Plant Physiol 119 : 935-949
10.1126/science.291.5511.2141 Kessler A, Baldwin IT (2001) Defensive function of herbivore-induced plant volatile emissions in nature. Science 291 : 2141-2144
Kloepper JW (1992) Plant growth-promoting rhizobacteria as biological control agents. In FB Metting Jr, ed, Soil Microbial Ecology: Applications in Agricultural and Environmental Management. Marcel Dekker Inc., New York, pp 255-274
10.1071/AP99003 Kloepper JW, Rodriguez-Kabana R, Zehnder GW, Murphy J, Sikora E, Fernandez C (1999) Plant root-bacterial interactions in biological control of soilborne diseases and potential extension to systemic and foliar diseases. Aust J Plant Pathol 28 : 27-33
10.1094/Phyto-86-149 Leeman M, den Ouden FM, van Pelt JA, Dirkx FPM, Steijl H, Bakker PAHM, Schippers B (1996) Iron availability affects induction of systemic resistance to fusarium wilt of radish by Pseudomonas fluorescens. Phytopathology 86 : 149-155
10.1126/science.1071547 Liechti R, Farmer EE (2002) The jasmonate pathway. Science 296 : 1649-1650
10.1094/Phyto-85-843 Liu L, Kloepper JW, Tuzun S (1995) Induction of systemic resistance in cucumber against bacterial angular leaf spot by plant growth-promoting rhizobacteria. Phytopathology 85 : 843-847
10.1094/Phyto-84-139 Maurhofer M, Hase C, Meuwly P, Metraux JP, Defago G (1994) Induction of systemic resistance of tobacco necrosis virus by the root-colonizing Pseudomonas fluorescens CHA0: influence of the gacA gene of pyoverdine production. Phytopathology 84 : 139-146
10.1094/PDIS.2000.84.7.779 Murphy JF, Zehnder GW, Schuster DJ, Sikora EJ, Polstan JE, Kloepper JW (2000) Plant growth-promoting rhizobacteria mediated protection in tomato against tomato mottle virus. Plant Dis 84 : 779-784
10.1104/pp.121.2.325 Pare? PW, Tumlinson JH (1999) Plant volatiles as a defense against insect herbivores. Plant Physiol 121 : 325-332
10.1105/tpc.8.8.1225 Pieterse CMJ, Van Wees SCM, Hoffland E, Van Pelt JA, Van Loon LC (1996) Systemic resistance in Arabidopsis induced by biocontrol bacteria is independent of salicylic acid accumulation and pathogenesis-related gene expression. Plant Cell 8 : 1225-1237
10.1055/s-2002-35441 Pieterse CMJ, Van Wees SCM, Ton J, Van Pelt JA, Van Loon LC (2002) Signaling in rhizobacteria-induced systemic resistance in Arabidopsis thaliana. Plant Biol 4 : 535-544
10.1128/JB.182.11.3072-3080.2000 Ramos HC, Hoffmann T, Marino M, Nedjari H, Presecan-Siedel E, Dreesen O, Glaser P, Jahn D (2000) Fermentative metabolism of Bacillus subtilis: physiology and regulation of gene expression. J Bacteriol 182 : 3072-3080
10.1094/PHYTO.1998.88.11.1158 Raupach GS, Kloepper JW (1998) Mixtures of plant growth-promoting rhizobacteria enhance biological control of multiple cucumber pathogens. Phytopathology 88 : 1158-1164
10.1094/PDIS.2000.84.10.1073 Raupach GS, Kloepper JW (2000) Biocontrol of cucumber diseases in the field by plant growth-promoting rhizobacteria with and without methyl bromide fumigation. Plant Dis 84 : 1073-1075
10.1094/PD-80-0891 Raupach GS, Liu L, Murphy JF, Tuzun S, Kloepper JW (1996) Induced systemic resistance in cucumber and tomato against cucumber mosaic virus using plant growth-promoting rhizobacteria. Plant Dis 80 : 891-894
10.1105/tpc.8.10.1809 Ryals JA, Neuenschwander UH, Willits MG, Molina A, Steiner HY, Hunt MD (1996) Systemic acquired resistance. Plant Cell 8 : 1809-1819
10.1073/pnas.0730845100 Ryu C-M, Farag MA, Hu C-H, Reddy MS, Wei HX, Pare? PW, Kloepper JW (2003) Bacterial volatiles promote growth in Arabidopsis. Proc Natl Acad Sci USA 100 : 4927-4932
10.1007/s004250100603 Schmelz EA, Alborn HT, Tumlinson JH (2001) The influence of intact plant and excised leaf bioassay designs on volicitin and jasmonic acid induced sesquiterpene volatile release in Zea mays. Planta 214 : 171-179
10.1094/MPMI.1997.10.1.69 Shah J, Tsui F, Klessig DF (1997) Characterization of a salicylic acid-insensitive mutant (sai1) of Arabidopsis thaliana, identified in a selective screen utilizing the SA-inducible expression of the tms2 gene. Mol Plant-Microbe Interact 10 : 69-78
10.1038/385718a0 Shulaev V, Silverman P, Raskin I (1997) Airborne signaling by methyl salicylate in plant pathogen resistance. Nature 387 : 718-721
10.1104/pp.125.2.652 Ton J, Davison S, Van Wees SCM, Van Loon LC, Pieterse CMJ (2001) The Arabidopsis ISR1 locus controlling rhizobacteria-mediated induced systemic resistance is involved in ethylene signaling. Plant Physiol 125 : 652-661
10.1023/A:1008638109140 Van Loon LC (1997) Induced resistance in plants and the role of pathogenesis-related proteins. Eur J Plant Pathol 103 : 753-765
10.1146/annurev.phyto.36.1.453 van Loon LC, Bakker PAHM, Pierterse CMJ (1998) Systemic resistance induced by rhizosphere bacteria. Annu Rev Phytopathol 36 : 453-483
10.1094/Phyto-81-728 van Peer R, Niemann GJ, Schippers B (1991) Induced resistance and phytoalexin accumulation in biological control of fusarium wilt of carnation by Pseudomonas sp. strain WCS417r. Phytopathology 81 : 728-734
10.1016/S1360-1385(02)02250-1 Weber H (2002) Fatty acid-derived signals in plants. Trends Plant Sci 7 : 217-224
10.1094/Phyto-81-1508 Wei G, Kloepper JW, Tuzun S (1991) Induction of systemic resistance of cucumber to Colletotrichum orbiculare by select strains of plant growth-promoting rhizobacteria. Phytopathology 81 : 1508-1512
10.1016/0168-9452(87)90191-9 Weidhase RA, Kramell HM, Lehmann J, Liebisch HW, Lerbs W, Parthier B (1987) Methyl jasmonate-induced changes in the polypeptide pattern of senescing barley leaf segments. Plant Sci 51 : 177-186
10.1038/35107108 Wildermuth MC, Dewdney J, Wu G, Ausubel FM (2001) Isochorismate synthase is required to synthesize salicylic acid for plant defense. Nature 414 : 562-565
10.1126/science.280.5366.1091 Xie DX, Feys BF, James S, Nieto-Rostro M, Turner JG (1998) COI1: an Arabidopsis gene required for jasmonate-regulated defense and fertility. Science 280 : 1091-1094
Zehnder GW, Yao C, Murphy JF, Sikora EJ, Kloepper JW (2000) Induction of resistance in tomato against cucumber mosaic virus by plant growth-promoting rhizobacteria. Biol Control 45 : 127-137
10.1111/j.1439-0434.1994.tb00007.x Zhou T, Pauliz TC (1994) Induced resistance in the biocontrol of Pythium aphanidermatum by Pseudomonas spp. on cucumber. J Phytopathol 142 : 51-63
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