Abstract
Using a calmodulin (CaM) cDNA as a probe in northern analyses, transgenic tomato plants that overexpress the prosystemin gene were found to express increased levels of CaM mRNA and protein in leaves compared to wild-type plants. These transgenic plants have been reported previously to express several wound-inducible defense-related genes in the absence of wounding. Calmodulin mRNA and protein levels were found to increase in leaves of young wild-type tomato plants after wounding, or treatment with systemin, methyl jasmonate, or linolenic acid. CaM mRNA appeared within 0.5 h after wounding or supplying young tomato plants with systemin, and peaked at 1 h. The timing of CaM gene expression is similar to the expression of the wound- or systemin-induced lipoxygenase and prosystemin genes, signal pathway genes whose expression have been reported to begin at 0.5–1 h after wounding and 1–2 h earlier than the genes coding for defensive proteinase inhibitor genes. The similarities in timing between the synthesis of CaM mRNA and the mRNAs for signal pathway components suggests that CaM gene expression may be associated with the signaling cascade that activates defensive genes in response to wounding.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bergey, D.R., Howe, G.A. and Ryan, C.A. 1996. Polypeptide signaling for plant defensive genes exhibits analogies to defense signaling in animals. Proc. Natl. Acad. Sci. USA 93: 12053-12058.
Bergey, D.R., Orozco-Cardenas, M. and Ryan, C.A. 1999. A wound-and systemin-inducible polygalacturonase in tomato leaves. Proc. Natl. Acad. Sci. USA 96: 1756-1760.
Bogre, L., Ligterink, W., Meskiene, I., Barker, P.J., Heberle-Bors, E., Huskisson, N.S. and Hirt, H. 1997. Wounding induces the rapid and transient activation of a specific MAP kinase pathway. Plant Cell 9: 75-83.
Botella, J.R. and Arteca, R.N. 1994. Differential expression of two calmodulin genes in response to physical and chemical stimuli. Plant Mol. Biol. 24: 757-766.
Braam, J. and Davis, R.W. 1990. Rain-, wind-, and touch-induced expression of calmodulin and calmodulin-related genes in Arabidopsis. Cell 60: 357-364.
Bush, D.S. 1995. Calcium regulation in plant cells and its role in signaling. Annu. Rev. Plant Physiol. PlantMol. Biol. 46: 95-122.
Cheung, W.Y. 1980. Calmodulin plays a pivotal role in cellular regulation. Science 207: 19-27.
Conconi, A., Miguel, M. Browse, J. and Ryan, C.A. 1996. Intracellular levels of free linolenic acid increases in tomato leaves in response to wounding. Plant Physiol. 111: 797-803.
Constabel, C.P., Bergey, D.R. and Ryan, C.A. 1995. Systemin activates the synthesis of wound-inducible tomato leaf polyphenol oxidase via the octadecanoid defense signaling pathway. Proc. Natl. Acad. Sci. USA 92: 407-411.
Crabtree, G.R. and Clipstone, N.A. 1994. Signal transmission between the plasma membrane and nucleus of T lymphocytes. Annu. Rev. Biochem. 63: 1045-1083.
Depege, N., Thonat, C., Coutand, C., Julien, J.-L. and Boyer, N. 1997. Morphological responses and molecular modifications in tomato plants after mechanical stimulation. Plant Cell Physiol. 38: 1127-1134.
Enslen, H., Tokumitsu, H., Stork, P.J.S., Davis, R.J. and Soderling, T.R. 1996. Regulation of mitogen-activated protein kinases by a calcium/calmodulin-dependent proteins kinase cascade. Proc. Natl. Acad. Sci. USA 93: 10803-10808.
Farmer, E.E. and Ryan, C.A. 1990. Interplant communication: airborne methyl jasmonate induces synthesis of proteinase inhibitors in plant leaves. Proc. Natl. Acad. Sci. USA 87: 7713-7716.
Farmer, E.E. and Ryan, C.A. 1992. Octadecanoid precursors of jasmonic acid activate the synthesis of wound-inducible proteinase inhibitors. Plant Cell 4: 129-134.
Gardner, P. 1989. Calcium and T lymphocyte activation. Cell 59: 15-20.
Graham, J.S., Hall, G., Pearce, G. and Ryan, C.A. 1986. Regulation of synthesis of proteinase inhibitors I and II mRNAs in leaves of wounded tomato plants. Planta 169: 399-405.
Green, T.R. and Ryan, C.A. 1972. Wound-induced proteinase inhibitors in plant leaves: a possible defense mechanism against insects. Science 175: 776-777.
Harding, S.A., Oh, S.-H. and Roberts, D.M. 1997. Transgenic tobacco expressing a foreign calmodulin gene shows an enhanced production of active oxygen species. EMBO J. 16: 1137-1144.
Heitz, T., Bergey D.R., Ryan, C.A. 1997. A gene encoding a chloroplast-targeted lipoxygenase in tomato leaves is transiently induced by wounding, systemin, and methyl jasmonate. Plant Physiol. 114: 1085-1093.
Hildmann, T., Ebneth, M., Pena-Cortes, H., Sanchez-Serrano, J.J., Willmitzer, L. and Prat, S. 1992. General roles for abscisic and jasmonic acids in gene activation as a result of mechanical wounding. Plant Cell 4: 1157-1170.
Hirt, H. 1997. Multiple roles of MAP kinases in plant signal transduction. Trends Plant Sci. 2: 11-15.
Jacinto, J., McGurl, B., Franceschi, V., Delano-Freier, J. and Ryan, C.A. 1997. Tomato prosystemin promoter confers wound-inducible, vascular bundle-specific expression of the _-glucuronidase gene in transgenic tomato plants. Planta 203: 406-412.
Lamb, C.J. 1994. Plant defense resistance genes in signal perception and transduction. Cell 76: 419-422.
Lee, S., Suh, S., Kin, S., Crain, R.C., Kwak, J.M., Nam, G.-G. and Lee, Y. 1997. Systemic elevation of phosphatidic and lysophospholipid levels in wounded plants. Plant Cell 12: 547-556.
Leonard, R.T. and Hepler, P.K. 1990. Calcium in Plant Growth and Development. American Society of Plant Physiologist, Rockville, M.D.
Lin, L.-L., Wartman, M., Lin, A., Knopf, J.L., Seth, A. and Davis, R.J. 1994. cPLa2 phosphorylated and activated by MAP kinase. Cell 72: 269-278.
Low, P.S. and Merida, J.R. 1996. The oxidative burst in plant defense: function and signal transduction. Physiol. Plant 96: 533-542.
McGurl, B., Pearce, G., Orozco-Cardenas, M. and Ryan, C.A. 1992. Structure, expression, and antisense inhibition of the systemin precursor gene. Science 225: 1570-1573.
McGurl, B., Orozco-Cardenas, M., Pearce, G. and Ryan, C.A. 1994. Overexpression of a the prosystemin gene in transgenic tomato plants generates a systemic signal that constitutively induces proteinase inhibitor synthesis. Proc. Natl. Acad. Sci. USA 91: 9799-9802.
Mehdy, M.C. 1994. Active oxygen species in plant defense against pathogens. Plant Physiol. 105: 467-472.
Moyen, C., Hammond-Kosack, K.E., Jones, J., Knight, M.R. and Johannes, E. 1998. Systemin triggers an increase of cytoplas823 mic calcium in tomato mesophyllo cells: Ca2C mobilization from intra-and extracellular compartments. Plant Cell Envir. 21: 1101-1111.
Narvaez-Vasquez, J., Pearce, G., Orozco-Cardenas, M.L., Franceschi, V.R. and Ryan, C.A. 1995. Autoradiographic and biochemical evidence for the systemic translocation of systemin in tomato plants. Planta 195: 593-600.
Niki, I., Yokokura, H., Sudo, T., Kato, M. and Hidaka, H. 1996. Ca2C signaling and intracellular Ca2C binding proteins. J. Biochem. 120: 685-698.
Orozco-Cardenas, M. and Ryan, C.A. 1999. Hydrogen peroxide is generated systemically in plant leaves by wounding and systemin via the octadecanoid pathway. Proc. Natl. Acad. Sci. USA 96: 6553-6557.
Orozco-Cardenas, M., McGurl, B. and Ryan, C.A. 1993. Expression of an antisense prosystemin gene in tomato plants reduces resistance toward Manduca Sexta larvae. Proc. Natl. Acad. Sci. USA 90: 8273-8276.
Pautot, V., Holzer, F.M., Reisch, B. and Walling, L.L. 1993. Leucine aminopeptidase: an inducible component of the defense response in Lycopersicon esculentum (tomato). Proc. Natl. Acad. Sci. USA 90: 9906-9910.
Pearce, G., Strydom, D., Johnson, S., Ryan, C.A. 1991. A polypeptide from tomato leaves induces wound-inducible proteinase inhibitor proteins. Science 253: 895-898.
Poovaiah, B.W. and Reddy, A.S.N. 1987. Calcium messenger system in plants. Crit. Rev. Plant Sci. 6: 47-75.
Poovaiah, B.W. and Reddy, A.S.N. 1993. Calcium and signal transduction in plants. Crit. Rev. Plant Sci. 12: 185-211.
Qui, Z.-H., Gijon, M.A., de Carvalho, M.S., Spencer, D.M. and Leslie, C.C. 1998. The role of calcium and phosphorylation of cytosolic phospholipase A2 in regulating arachidonic acid release in macrophages. J. Biol. Chem. 273: 8203-8211.
Roberts, D.M. and Harmon, A.C. 1992. Calcium-modulated proteins: targets of intracellular calcium signals in higher plants. Annu. Rev. Plant Physiol. Plant Mol. Biol. 43: 375-415.
Royo, J., Vancanney, G., Perez, A.G., Sanz, C., Stormann, K., Rosahl, S. and Sanchez-Serrano, J.J. 1996. Characterization of three potato lipoxygenases with distinct enzymatic activities and different organ-specific and wound-regulated expression patterns. J. Biol. Chem. 271: 21012-21019.
Ryan, C.A. 1967. Quantitative determination of soluble cellular proteins by radial diffusion in agar gels containing antibodies. Anal. Biochem. 19: 434-440.
Sambrook, J., Fritsch, E.F. and Maniatis, T. 1989. Molecular Cloning: A Laboratory Manual, 2nd ed., Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.
Schroeder, J.I. and Thuleau, P. 1991. Ca2C channels in higher plants. Plant Cell 3: 555-559.
Seo, S., Okamoto, M., Seto, H., Ishizuka, K., Sano, H. and Ohashi, Y. 1995. Tobacco MAP kinase: a possible mediator in wound signal transduction pathways. Science 270: 1988-1992.
Sheen, J. 1996. Ca2C-dependent protein kinases and stress signal transduction in plants. Science 274: 1900-1902.
Shumway, K. and Ryan, C.A. 1976. Evidence for the presence of proteinase inhibitor I in plant cell vacuolar protein bodies. Planta 129: 161-164.
Somssich, I.E. 1997. MAP kinases and plant defense. Trends Sci. 2: 406-408.
Stratmann, J.W. and Ryan, C.A. 1997. Myelin basic protein kinase activity in tomato leaves is induced systemically by wounding and increases in response to systemin and oligosaccharide elicitors. Proc. Natl. Acad. Sci. USA 94: 11085-11089.
Suzuki, K. and Shinshi, H. 1995. Transient activation and tyrosine phosphorylation of a protein kinase in tobacco cells treated with a fungal elicitor. Plant Cell 7: 639-647.
Takezwa, D., Liu, Z.H., An, G. and Poovaiah, B.W. 1995. Calmodulin gene family in potato: developmental and touch-induced expression of the mRNA encoding a novel isoform. Plant Mol. Biol. 27: 693-703.
Trautman, R., Cowan, K.M. and Wahner, G.G. 1971. Data for processing from radial immunodiffusion. Immunochemistry 8: 901-916.
Usami, C., Banno, H., Ito, Y., Nishihama, R. and Machida, Y. 1995. Cutting activates a 46-kilodalton protein kinase in plants. Proc. Natl. Acad. Sci. USA 92: 8660-8664.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Bergey, D.R., Ryan, C.A. Wound- and systemin-inducible calmodulin gene expression in tomato leaves. Plant Mol Biol 40, 815–823 (1999). https://doi.org/10.1023/A:1006247624823
Issue Date:
DOI: https://doi.org/10.1023/A:1006247624823