Abstract
We have cloned and sequenced a wound-inducible cDNA clone designated WIP1 (for wound-induced protein) from maize coleoptiles. It was isolated by differential screening of a cDNA library prepared from excised maize coleoptile segments. The deduced amino acid sequence predicts a secretory, cysteine-rich protein of 102 residues with a calculated molecular mass of 11 kDa and a typical N-terminal signal sequence. The protein has about 30% identity with various Bowman-Birk type proteinase inhibitors. Most interestingly, it is novel in that it is double-headed with exclusive specificity for chymotrypsin. WIP1 is strongly wound-induced in contrast to other members of the Bowman-Birk proteinase inhibitor family, which occur in seeds and are regulated during development. The response is fast, similar to defenceinduced genes, and measurable as early as 30 min after wounding. Induction can also be evoked in the intact coleoptiles and the signal is systemically transmitted in the coleoptile to adjacent regions of the wounded area. Isolation and analysis of the corresponding genomic clone reveals that WIP1 contains an intron of 90 nucleotides.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
An G, Mitra A, Choi HK, Costa MA, An K, Thornburg RW, Ryan CA: Functional analysis of the 3′ control region of the potato wound-inducible proteinase inhibitor II gene. Plant Cell 1: 115–122 (1989).
Asao T, Imai F, Tsuji I, Tashiro M, Iwami K, Ibuki F: The amino acid sequence of a Bowman-Birk type proteinase inhibitor from faba beans (Vicia faba L.). J Biochem 110: 951–955 (1991).
Baumgartner B, Chrispeels MJ: Partial characterisation of a protease inhibitor which inhibits the major endopeptidase present in the cotyledons of mung beans. Plant Physiol 58: 1–6 (1976).
Bishop PD, Markus DJ, Pearce G, Ryan CA: Proteinase inhibitor inducing activity in tomato leaves resides in oligosaccharides enzymically released from cell walls. Proc Natl Acad Sci USA 78: 3536–3540 (1981).
Bishop PD, Pearce G, Bryant JE, Ryan CA: Isolation and characterization of the proteinase inhibitor-inducing factor from tomato leaves: Identity and activity of poly-and oligogalacturonide fragments. J Biol Chem 259: 13172–13177 (1984).
Bowles DJ: Defense-related proteins in higher plants. Annu Rev Biochem 59: 873–907 (1990).
Brinkmann H, Martinez P, Quigley F, Martin W, Cerff R: Endosymbiontic origin and codon bias of the nuclear gene for chloroplast glyceraldehyde-3-phosphate dehydrogenase from maize. J Mol Evol 26: 320–328 (1987).
Brown JWS: A catalogue of splice junction and putative branch point sequences from plant introns. Nucl Acids Res 14: 9549–9559 (1986).
Campbell WH, Gowri G: Codon usage in higher plants, green algae and cyanobacteria. Plant Physiol 92: 1–11 (1989).
Cleveland TE, Thornburg RW, Ryan CA: Molecular characterization of a wound-inducible inhibitor I gene from potato and the processing of its mRNA and protein. Plant Mol Biol 94: 199–207 (1987).
Creelman RA, Tierny ML, Mullet JE: Jasmonic acid/methyl jasmonate accumulate in wounded soybean hypocotyls and modulate wound gene expression. Proc Natl Acad Sci USA 89: 4938–4941 (1992).
Doherty HM, Bowles DJ: The role of pH and ion transport in oligosaccharide-induced proteinase inhibitor accumulation in tomato plants. Plant Cell Environ 13: 851–855 (1990).
Doherty HM, Selvendran RR, Bowles DJ: The wound response of tomato plants can be inhibited by aspirin and related hydroxy-benzoic acids. Physiol Mol Plant Path 33: 377–384 (1988).
Farmer EE, Ryan CA: Interplant communication: airborne methyl jasmonate induced synthesis of proteinase inhibitors in plant leaves. Proc Natl Acad Sci USA 87: 7713–7716 (1990).
Garcia-Olmedo F, Salcedo G, Sanchez-Monge R, Gomez L, Royo J, Carbonero P: Plant proteinaceous inhibitors of proteinases and α-amylases. Oxford Surv Plant Mol Cell Biol 4: 275–334 (1987).
Graham JS, Pearce G, Merryweather J, Titani K, Ericsson L, Ryan CA: Wound-induced proteinase inhibitors from tomato leaves. I. The cDNA-deduced primary structure of pre-inhibitor and its post-translational processing. J Biol Chem 260: 6555–6560 (1985).
Green TR, Ryan CA: Wound-induced proteinase inhibitor in plant leaves: A possible defence mechanism. Science 175: 776–777 (1972).
Gubler U, Hoffmann BJ: A simple and very efficient method for generating cDNA libraries. Gene 25: 263–269 (1983).
Haffner MH, Chin MB, Lane BG: Wheat embryo ribonucleates. Can J Biochem 56: 729–733 (1978).
Hammond WR, Foard DE, Larkin B: Molecular cloning and analysis of a gene for the Bowman-Birk protease inhibitor in soybean. J Biol Chem 259: 9883–9890 (1984).
Hawkins JD: A survey of intron and exon length. Curr Genet 16: 9893–9908 (1988).
Hilder VA, Barker RF, Samour RA, Gatehouse AMR, Gatehouse JA, Boulter D: Protein and cDNA sequence of Bowman-Birk protease inhibitors from the cowpea (Vigna unguiculata Walp.) Plant Mol Biol 13: 701–710 (1989).
Hilder VA, Gatehouse AMR, Sheerman SE, Barker RF, Boulter D: A novel mechanism of insect resistance engineered into tobacco. Nature 330: 160–163 (1987).
Hobday SM, Thurman DA, Barber DJ: Proteolytic and trypsin inhibitory activities in extracts of germinating Pisum sativum seeds. Phytochemistry 12: 1041–1046 (1973).
Ikenaka T, Norioka S Bowman-Birk family serine proteinase inhibitors. In: Barrett AJ, Salvesen G (eds) Proteinase Inhibitors, pp. 361–374. Elsevier Science Publishers, Amsterdam (1986).
Keil M, Sanchez-Serrano JJ, Schell J, Willmitzer L: Localization of elements important for the wound-inducible expression of a chimeric potato proteinase inhibitor II-CAT gene in transgenic tobacco plants. Plant Cell 2: 61–70 (1990).
Kernan A, Thornburg RW: Auxin levels regulate the expression of a wound-inducible proteinease inhibitor II-chloramphenicol acetyl transferase gene fusion in vitro and in vivo. Plant Physiol 91: 73–78 (1989).
Kozak M: The scanning model for the translation: An update. J Cell Biol 108: 229–241 (1989).
LaskowskiJr M, Kato I: Protein inhibitors of proteinases. Annu Rev Biochem 49: 593–626 (1980).
Lawton MA, Lamb CJ: Transcriptional activation of plant defense genes by fungal elicitor, wounding and infection. Mol Cell Biol 7: 335–341 (1987).
Lee JS, Brown WE, Graham JS, Pearce G, Fox EA, Dreher TW, Ahern KG, Pearson GD, Ryan CA: Molecular characterization and phylogenetic studies of a wound-inducible proteinase inhibitor I gene in Lycopersicum species. Proc Natl Acad Sci USA 83: 7277–7281 (1986).
Logemann J, Mayer JE, Schell J, Willmitzer L: Differential expression of genes in potato tubers after wounding. Proc Natl Acad Sci USA 85: 1136–1140 (1988).
Logemann J, Lipphardt S, Lörz H, Häuser I, Willmitzer L, Schell J: 5′ Upstream sequences from the wun1 gene are responsible for the gene activation by wounding in transgenic plants. Plant Cell 1: 151–158 (1989).
Lorberth R, Dammann C, Ebneth M, Amati S, Sanchez-Serrano JJ: Promotor elements involved in environmental and developmental control of potato proteinase. Plant J 2: 477–486 (1992).
Miege M, Mascherpa J, Royer-Spierer A, Grange A, Miege J: Analyse des corps proteiques isoles de Lablab purpureus sweet: Localisation intracellulaire des globulines, proteases et de la trypsine. Planta 131: 81–86 (1976).
Norioka S, Ikenaka T: Amino acid sequences of trypsinchymotrypsin inhibitors (A-I, A-II, B-I and B-II) from peanut (Arachis hypogea): a discussion on the molecular evolution of legume Bowman-Birk type inhibitors. Biochemistry 94: 589–599 (1983).
Odani S, Ikenaka T: Studies on soybean trypsin inhibitors. XII. Linear sequences of two double-headed trypsin inhibitors, D-II and E-I. J Biochem 83: 737–745 (1978).
Odani S, Koide T, Ono T: Wheat germ trypsin inhibitors. Isolation and structural characterization of single-headed and double-headed inhibitors of the Bowman-Birk type. J Biochem 100: 975–983 (1986).
Palmiter RD: Magnesium precipitation of ribonucleoprotein complexes. Biochemistry 13: 3606–3615 (1974).
Pearce G, Strydom D, Johnson S, Ryan CA: A polypeptide from tomato leaves induces wound-inducible proteinase inhibitor proteins. Science 253: 895–898 (1991).
Pena-Cortes H, Sanchez-Serrano J, Rocha-Sosa M, Willmitzer L: Systemic induction of proteinase-inhibitor-II gene expression in potato plants by wounding. Planta 174: 84–89 (1988).
Pena-Cortes H, Sanchez-Serrano J, Merters R, Willmitzer L, Prat S: Abscisic acid is involved in the wound-induced expression of the proteinase inhibitor 2 gene in potato and tomato. Proc Natl Acad Sci USA 86: 9851–9855 (1989).
Rogers SO, Bendich AJ: Extraction of DNA in plant tissues. In: Gelvin SB, Schilperoort RA Verma DPS (eds) Plant Molecular Biology Manual, pp. A6: 1–10. Kluwer Academic Publishers, Dordrecht (1988).
Ryan CA: Assay and biochemical properties of the proteinase inhibitor inducing factor, a wound hormone. Plant Physiol 54: 328 (1974).
Ryan CA: Oligosaccharide signalling in plants. Annu Rev Cell Biol 3: 295–317 (1987).
Sanchez-Serrano J, Schmidt R, Schell J, Willmitzer L: Nucleotide sequence of proteinase inhibitor II encoding cDNA of potato (Solanum tuberosum) and its mode of expression. Mol Gen Genet 203: 15–20 (1986).
Sanchez-Serrano J, Keil M, Schell J, Willmitzer L: Wound-induced expression of a potato proteinase inhibitor II gene in transgenic plants. EMBO J 6: 303–306 (1987).
Sanger F, Micklen S, Coulson AR: DNA sequencing with chain-terminating inhibitors: Proc Natl Acad Sci USA 74: 5463–5467 (1977).
Sambrook J, Fritsch EF, Maniatis T: Molecular Cloning: A Laboratory Manual. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY (1989).
Shimokawa Y, Kuromizu K, Araki T, Ohata J, Abe O: Primary structure of Vicia angustifolia proteinase inhibitor. Eur J Biochem 143: 677–684 (1984).
Siebertz B, Logemann J, Willmitzer L, Schell J: cis-Analysis of the wound-inducible promotor wun1 in transgenic tobacco plants and histochemical localization of its expression. Plant Cell 1: 961–968 (1989).
Stanford A, Bevan M, Northcote D: Differential expression within a family of novel wound-induced genes in potato. Mol Gen Genet 215: 200–208 (1989).
Suh SG, Stiekema WJ, Hannapel DJ: Proteinase-inhibitor activity and wound-inducible gene expression of the 22-kDa potato-tuber proteins. Planta 184: 423–430 (1991).
Thain JF, Doherty HM, Bowles DJ, Wildon DC: Oligosaccharides that induce proteinase inhibitor activity in tomato plants cause depolarization of tomato leaf cells. Plant Cell Environ 13: 569–574 (1990).
Theologis A, Huynh TV, Davis RW: Rapid induction of specific mRNAs by auxin in pea epicotyl tissue. J Mol Biol 183: 53–68 (1985).
Thornburg RW, An G, Cleveland TE, Johnson R, Ryan CA: Wound-inducible expression of a potato inhibitorII-chloramphenicol acetyltransferase gene fusion in transgenic tobacco plants. Proc Natl Acad Sci USA 84: 744–748 (1987).
VonHeijne G: A new method for predicting signal sequence cleavage sites. Nucl Acids Res 14: 4682–4690 (1986).
Weiss C, Bevan M: Ethylene and a wound signal modulate local and systemic transcription of win2 genes in transgenic potato plants. Plant Physiol 96: 943–951 (1990).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rohrmeier, T., Lehle, L. WIP1, a wound-inducible gene from maize with homology to Bowman-Birk proteinase inhibitors. Plant Mol Biol 22, 783–792 (1993). https://doi.org/10.1007/BF00027365
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00027365