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References
Alba, R., Fei, Z., Payton, P., Liu, Y., Moore, S.L., Debbie, P., Gordon, J.S., Rose, J.K.C., Martin, G., Tanksley, S.D., Bouzayen, M., Jahn, M.M., and Giovannoni, J., 2004, ESTs, cDNA microarrays, and gene expression profiling: tools for dissecting plant physiology and development, Plant Journal 39:697-714.
Bender, C.L., Alarcón-Chaidez, F., and Gross, D.C., 1999, Pseudomonas syringae phytotoxins: mode of action, regulation and biosynthesis by peptide and polyketide synthetases, Microbiology and Molecular Biology Reviews 63:266-292.
Bender, C.L., Stone, H.E., Sims, J.J., and Cooksey, D.A., 1987, Reduced pathogen fitness of Pseudomonas syringae pv. tomato Tn5 insertions defective in coronatine production, Physiological and Molecular Plant Pathology 30:273-283.
Brooks, D.M., Guzman, G.H., Kloek, A.P., Alarcón-Chaidez, F., Sreedharan, A., Rangaswamy, V., Peñaloza-Vázquez, A., Bender, C.L., and Kunkel, B.N., 2004, Identification and characterization of a well-defined series of coronatine biosynthetic mutants of Pseudomonas syringae pathovar tomato DC3000, Molecular Plant-Microbe Interactions 17:162-174.
Burns, J.K., Pozo, L.V., Arias, C.R., Hockema, B., Rangaswamy, V. and Bender, C.L., 2003, Coronatine and abscission in citrus, J. Am. Soc. Hort. Sci. 128:309-315.
Cheong, Y. H., Chang, H. S., Gupta, R., Wang, X., Zhu, T., and Luan, S., 2002, Transcriptional profiling reveals novel interactions between wounding, pathogen, abiotic stress, and hormonal responses in Arabidopsis, Plant Physiology 129:661-677.
Devoto, A., and Turner, J. G., 2003, Regulation of jasmonate-mediated plant responses in Arabidopsis, Annals of Botany 92:329-337.
Ecker, J. R., 1995, The ethylene signal transduction in plants, Science 268:667-675.
Farmer, E. E., Almeras, E., and Krishnamurthy, V., 2003, Jasmonates and related oxylipins in plant responses to pathogenesis and herbivory, Current Opinion in Plant Biology 6:372-378.
Ferguson, I. B., and Mitchell, R. E., 1985, Stimulation of ethylene production in bean leaf discs by the pseudomonad phytotoxin coronatine, Plant Physiology 77:969-973.
Feys, B. J. F., Benedetti, C. E., Penfold, C. N., and Turner, J. G., 1994, Arabidopsis mutants selected for resistance to the phytotoxin coronatine are male sterile, insensitive to methyl jasmonate, and resistant to a bacterial pathogen, Plant Cell 6:751-759.
Goossens, A., Hakkinen, S. T., Laakso, I., Seppanen-Laakso, T., Biondi, S., De Sutter, V., Lammertyn, F., Nuutila, A. M., Soderlund, H., Zabeau, M., Inze, D., and Oksman-Caldentey, K. M., 2003, A functional genomics approach toward the understanding of secondary metabolism in plant cells, Proceedings of National Academy of Science (USA) 100:8595-8600.
Howe, G.A., and Schilmiller, A. L., 2002, Oxylipin metabolism in response to stress, Current Opinion in Plant Biology 5:230-236.
Ichihara, A. K., Shiraishi, K., Sato, H., Sakamura, S., Nishiyama, K., Sasaki, R., Furusaki, A., and Matsumoto, T., 1977, The structure of coronatine, Journal of American Chemical Society 99:636-637.
Jones, W. T., Harvey, D., Mitchell, R. E., Ryan, G. B., Bender, C. L., and Reynolds, P. H. S., 1997, Competitive ELISA employing monoclonal antibodies specific for coronafacoyl amino acid conjugates, Food and Agricultural Immunology 9:67-76.
Kenyon, J. S., and Turner, J. G., 1992, The stimulation of ethylene synthesis in Nicotiana tabacum leaves by the phytotoxin coronatine, Plant Physiology 100:219-224.
Kloek, A. P., Verbsky, M. L., Sharma, S. B., Schoelz, J. E., Vogel, J., Klessig, D. F., and Kunkel, B. N., 2001, Resistance to Pseudomonas syringae conferred by an Arabidopsis thaliana coronatine-insensitive (coi1) mutation occurs through two distinct mechanisms, Plant Journal 26:509-522.
Kunkel, B. N., and Brooks, D. M., 2002, Cross talk between signaling pathways in pathogen defense, Current Opinion in Plant Biology 5:325-331.
Kunkel, B.N., Agnew, A., Collins, J., Cohen, J., and Chen, Z., 2004, Molecular genetic analysis of AvrRpt2 activity in promoting virulence of Pseudomonas syringae, in: Genomic and Genetic Analysis of Plant Parasitism and Defense. Leach, J., Tsuyumu, S., Wolpert, T., and Shirashi, T., eds., APS Press, St. Paul, Minnesota, in press.
Lauchli, R. and Boland, W., 2003, Indanoyl amino acid conjugates: tunable elicitors of plant secondary metabolism, Chemical Records 3:12-21.
Li, L., Zhao, Y., McCaig, B.C.,Wingerd, B.A., Wang, J., Whalon, M.E., Pichersky, E. and Howe, G.A., 2004, The tomato homolog of CORONATINE-INSENSITIVE1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development, Plant Cell 16:126-143.
Lund, S. T., Stall, R. E., and Klee, H. J., 1998, Ethylene regulates the susceptible response to pathogen infection in tomato, Plant Cell 10:371-382.
Mitchell, R. E., 1982, Coronatine production by some phytopathogenic pseudomonads, Physiological Plant Pathology 20:83-89.
Mitchell, R. E., 1985, Coronatine biosynthesis: incorporation of L-[U-14C]isoleucine and L-[U-14C]threonine into the 1-amido-1-carboxy-2-ethylcyclopropyl moiety, Phytochemistry 24:247-249.
Mittal, S. M., and Davis, K. R., 1995, Role of the phytotoxin coronatine in the infection of Arabidopsis thaliana by Pseudomonas syringae pv. tomato, Molecular Plant-Microbe Interactions 8:165-171.
Navarre, D. A., and Wolpert, T. J., 1999, Victorin induction of an apoptotic/senescence-like response in oats, Plant Cell 11:237-249.
Parry, R. J., Mhaskar, S. V., Lin, M. T., Walker, A. E., and Mafoti, R., 1994, Investigations of the biosynthesis of the phytotoxin coronatine, Canadian Journal of Chemistry 72:86-99.
Sakai, R., Nishiyama, K., Ichihara, A., Shiraishi, K., and Sakamura, S., 1979, The relation between bacterial toxic action and plant growth regulation, in: Recognition and Specificity in Plant Host-parasite Interactions, J.M. Daly, and I. Uritani, eds., University Park Press, Baltimore, MD., pp. 165-179.
Sasaki, Y., Asamizu, E., Shibata, D., Nakamura, Y., Kaneko, T., Awai, K., Amagai, M., Kuwata, C., Tsugane, T., Masuda, T., Shimada, H., Takamiya, K., Ohta, H., and Tabata, S., 2001, Monitoring of methyl jasmonate-responsive genes in Arabidopsis by cDNA macroarray: self-activation of jasmonic acid biosynthesis and crosstalk with other phytohormone signaling pathways, DNA Research 8:153-161.
Schenk, P. M., Kazan, K., Wilson, I., Anderson, J. P., Richmond, T., Somerville, S. C., and Manners, J. M., 2000, Coordinated plant defense responses in Arabidopsis revealed by microarray analysis, Proceedings of National Academy of Science (USA) 97:11655-11660.
Schmelz, E. A., Engelberth, J., Alborn, H. T., O'Donnell, P., Sammons, M., Toshima, H., and Tumlinson, J. H., 2003, Simultaneous analysis of phytohormones, phytotoxins, and volatile organic compounds in plants, Proceedings of National Academy of Science (USA) 100:10552-10557.
Schmelz, E. A., Engelberth, J., Tumlinson, J. H., Block, A., and Alborn, H. T., 2004, The use of vapor phase extraction in metabolic profiling of phytohormones and other metabolites, Plant Journal 39:790-808.
Smyth, G. K., 2004, Linear models and empirical Bayes methods for assessing differential expression in microarray experiments, Statistical Applications in Genetics and Molecular Biology 3:Article 3.
Staswick, P. E., and Tiryaki, I., 2004, The oxylipin signal jasmonic acid is activated by an enzyme that conjugates it to isoleucine in Arabidopsis, Plant Cell 16:2117-2127.
Stenzel, I., Hause, B., Maucher, H., Pitzschke, A., Miersch, O., Ziegler, J., Ryan, C.A. and Wasternack, C., 2003, Allene oxide cyclase dependence of the wound response and vascular bundle-specific generation of jasmonates in tomato - amplification in wound signaling, Plant Journal 33:577-589.
Stuhlfelder, C., Mueller M. J., and Warzecha, H., 2004, Cloning and expression of a tomato cDNA encoding a methyl jasmonate cleaving esterase, European Journal of Biochemistry 271:2976-2983.
Sturn, A., Quackenbush, J., and Trajanoski, Z., 2002, Genesis: Cluster analysis of microarray data, Bioinformatics 18:207-208.
Uppalapati, S. R., Patricia A., Weng, H. P., Palmer, D. A., Mitchell, R. E., Jones, W., and Bender, C. L., 2005, The phytotoxin coronatine and methyl jasmonate impacts multiple phytohormone pathways in tomato, The Plant Journal 42(2):201-217.
Walters, D., Cowley, T., and Mitchell, A., 2002, Methyl jasmonate alters polyamine metabolism and induces systemic protection against powdery mildew infection in barley seedlings, Journal of Experimental Botany 53:747-756.
Weber, H., 2002, Fatty acid-derived signals in plants, Trends Plant Science 7:217-224.
Weiler, E. W., Kutchan, T. M., Gorba, T., Brodschelm, W., Neisel, U., and Bublitz, F., 1994, The Pseudomonas phytotoxin coronatine mimics octadecanoid signaling molecules of higher plants, FEBS Letters 345:9-13.
Weingart, H., Ullrich, H., Geider, K., and Völksch, B., 2001, The role of ethylene production in virulence of Pseudomonas syringae pvs. glycinea and phaseolicola, Phytopathology 91:511-518.
Yang, Y.H, Dudoit, S., Luu, P., Lin, D.M., Peng, V., Ngai, J., and Speed, T.P., 2002, Normalization for cDNA microarray data: a robust composite method addressing single and multiple slide systematic variation, Nucleic Acids Research 30:e15.
Zhao, Y., Thilmony, R., Bender, C. L., Schaller, A., He, S.Y., and Howe, G.A., 2003, Virulence systems of Pseudomonas syringae pv. tomato promote bacterial speck disease in tomato by targeting the jasmonate signaling pathway, Plant Journal 36:485-499.
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Uppalapati, S.R., Bender, C.L. (2007). Gene Expression and Metabolic Analysis Reveal that the Phytotoxin Coronatine Impacts Multiple Phytohormone Pathways in Tomato. In: Nikolau, B.J., Wurtele, E.S. (eds) Concepts in Plant Metabolomics. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-5608-6_14
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