Aspirin prevents wound-induced gene expression in tomato leaves by blocking jasmonic acid biosynthesis

Jasmonic acid (JA) and its methyl ester, like mechanical wounding, strongly induce accumulation of proteinase inhibitor II (Pin2) in tomato and potato leaves. In plants, JA is synthesized from α-linolenic acid by a lipoxygenase (LOX)-mediated oxygenation leading to 13-hydroxyperoxylinolenic acid (13-HPLA) which is then subsequently transformed to JA by the action of hydroperoxide-dehydrase activity and additional modification steps. Both the chemical structure as well as the biosynthetic pathway of JA resemble those of the mammalian eicosanoids (prostaglandins and leukotrienes) which are derived from LOX-and cyclooxygenase (COX)-mediated reactions. To assess the role of endogenous JA in the wound response, detached tomato (Lycopersicon esculentum Mill.) leaves were supplied with different LOX and COX inhibitors and the expression of the wound-induced genes for Pin2 (Pin2), cathepsin D inhibitor (Cdi) and threonine deaminase (Td) was analyzed. Lipoxygenase inhibitors as well as some COX inhibitors blocked the wound-induced accumulation of Pin2, Cdi and Td mRNA. Quantitation of endogenous levels of JA showed that aspirin blocks the increase of this phytohormone normally observed as a result of wounding. Linolenic acid and 13-HPLA do not induce the expression of Pin2, Cdi and Td in the presence of aspirin. However, 12-oxo-phytodienoic acid and jasmonic acid are able to overcome the inhibitory effect of this substance. These results strongly indicate that aspirin prevents wound-induced gene activation by inhibiting the hydroxyperoxide-dehydrase activity that mediates the conversion of 13-HPLA to 12-oxo-phytodienoic acid.     

Systemic induction of proteinase-inhibitor-II gene expression in potato plants by wounding

The systemic induction of expression of the gene for proteinase inhibitor II after wounding different parts of potato (Solanum tuberosum L.) plants was analysed at the RNA level. Wounding of either leaves or tubers led to an induction of expression of this gene in non-wounded upper and lower leaves as well as in the upper stem segment, whereas no expression was observed in nonwounded roots or in the lower stem segment. The signal mediating the systemic induction in nonwounded tissue must therefore be able to move both acropetally and basipetally. The systemic wound response is specific for the expression of the proteinase-inhibitor-II gene as no influence was observed for the expression of genes encoding the small subunit of ribulose-1,5-bisphosphate carboxylase and the tuber storage protein patatin which were examined in parallel with the proteinase-inhibitor-II gene.Abbreviation ssRubisco small subunit of ribulose-1,5-bis-phosphate carboxylase     

Local and systemic changes in gene expression induced in tomato plants by wounding and by elicitor treatment

Tomato (Lycopersicon esculentum Mill. cv. Moneymaker) plants have been wounded to induce the accumulation of proteinase-inhibitor proteins (PI proteins) at the local site of injury and systemically in unwounded tissues. To determine the range of genes affected in the wound-response, polysomal mRNA has been isolated from the damaged leaves and from systemically responding leaves over a time-course of 2, 4, 10 and 24 h after wounding. Changes in the pattern of ³⁵S-translation products indicate that the events that occur at the local wound-site are different from those that occur systemically, both with respect to the number of genes that are regulated and the timing of their regulation. In order to compare the effects of wounding and an endogenous systemic signal generated at the wound-site with those of elicitor (proteinase-inhibitor-inducing factor, PIIF) treatment of excised plants, polysomal mRNA has also been isolated from leaves of plants over a time-course of 2, 4, 10 and 24 h after PIIF-treatment. Changes in the pattern of ³⁵S-translation products indicates that the events induced by PIIF resemble those induced by mechanical injury, rather than those induced by the endogenous systemic signal.Abbreviations IFF isoelectric focussing - PI proteins proteinase inhibitor proteins - PIIF proteinase-inhibitor-inducing factor - ssRubisco small subunit of ribulose-1,5-bisphosphate carboxylase     

Influence of the tobacco mosaic virus 30-kDa movement protein on carbon metabolism and photosynthate partitioning in transgenic tobacco plants

Transgenic tobacco (Nicotiana tabacum L.) plants expressing the 30-kDa movement protein of tobacco mosaic virus (TMV-MP) were employed to investigate the influence of a localized change in mesophyll-bundle sheath plasmodesmal size exclusion limit on photosynthetic performance and on carbon metabolism and allocation. Under conditions of saturating irradiance, tobacco plants expressing the TMV-MP were found to have higher photosynthetic CO₂-response curves compared with vector control plants. However, this difference was significant only in the presence of elevated CO₂ levels. Photosynthetic measurements made in the green-house, under endogenous growth conditions, revealed that there was little difference between TMV-MP-expressing and control tobacco plants. However, analysis of carbon metabolites within source leaves where a TMV-MP-induced increase in plasmodesmal size exclusion limit had recently taken place established that the levels of sucrose, glucose, fructose and starch were considerably elevated above those present in equivalent control leaves. Although expression of the TMV-MP did not alter total plant biomass, it reduced carbon allocation to the lower region of the stem and roots. This difference in biomass distribution was clearly evident in the lower root-to-shoot ratios for the TMV-MP transgenic plants. Microinjection (dye-coupling) studies established that the TMV-MP-associated reduction in photosynthate delivery (allocation) to the roots was not due to a direct effect on root cortical plasmodesmata. Rather, this change appeared to result from an alteration in phloem transport from young source leaves in which the TMV-MP had yet to exert its influence over plasmodesmal size exclusion limits. These results are discussed in terms of the rate-limiting steps involved in sucrose movement into the phloem.Abbreviations PFD photon flux density - SEL size exclusion limit - TMV-MP tobacco mosaic virus movement protein This work was supported by National Science Foundation grant No. DCB-9016756 (W.J.L.) and United States-Israel Binational Science Foundation grant No. 90-00070 (S.W. and W.J.L.). Special thanks are due to Bryce Falk for the use of pathogen-free green-house space at the University of California, Davis, Plant Pathology Greenhouse Facility, and to Robert Pearcy, for the use of his gas-exchange system. R.J.H. was on sabbatical leave from the University of Rhode Island, Kingston, RI.     

Inducible expression of bacterio-opsin in transgenic tobacco and tomato plants

The development of new strategies to enhance resistance of plants to pathogens is instrumental in preventing agricultural losses. Lesion mimic, the spontaneous formation of lesions resembling hypersensitive response lesions in the absence of a pathogen, is a dramatic phenotype occasionally induced upon expression of certain transgenes in plants. These transgenes simulate the presence of a pathogen and, therefore, activate the plant anti-pathogen defense mechanisms and induce a state of systemic resistance. Lesion mimic genes have been successfully used to enhance the resistance of a number of different plants to pathogen attack. However, constitutive expression of these genes in plants is associated with the spontaneous formation of lesions on leaves and stems, reduced growth, and lower yield. We tested the possibility of using a wound-inducible promoter to control the expression of bacterio-opsin (bO), a transgene that confers a lesion mimic phenotype in tobacco and tomato plants when constitutively expressed. We found that plants with inducible expression of bO did not develop spontaneous lesions. Nevertheless, under controlled laboratory conditions, they were found to be resistant to infection by pathogens. The activation of defense mechanisms by the bO gene was not constitutive, and occurred in response to wounding or pathogen infection. Furthermore, wounding of transgenic tobacco plants resulted in the induction of systemic resistance to pathogen attack within 48 h. Our findings provide a promising initial assessment for the use of wound-inducible promoters as a new strategy to enhance pathogen resistance in transgenic crops by means of lesion mimic genes.     

Characterisation of a gene that is expressed in leaves at higher levels upon tuberisation in potato and upon flowering in tobacco

A partial cDNA clone has been isolated which represents a gene that is induced in potato (Solanum tuberosum L.) leaves upon tuber initiation. The gene is also present in tobacco (Nicotiana tobacum L.) where it is induced upon flowering, and in tomato (Lycopericon esculentum, L.) where it is induced when the plant starts to form fruit. This provides further evidence for the similarity of the floral-induction and tuber-induction pathways, and raises the possibility that this gene may be involved in a common step in both of these pathways. Alternatively, it could be involved in a secondary process that is induced during tuberisation, flowering and fruit development.     

The immobility of pectic substances in injured tomato leaves and its bearing on the identity of the wound hormone

It has been suggested that pectic polysaccharides (or oligosaccharides cleaved from them) are liberated from the cell wall upon wounding of leaf tissue, and that they act as long-distance hormones evoking a defence response in neighbouring uninjured leaves (P.D. bishop et al. 1981, Proc. Natl. Acad. Sci. USA 78, 3536–3540, and cited literature). We have tested this hypothesis by infiltration of radioactive pectic fragments (rhamnogalacturonans and homogalacturonans of degrec of polymerisation down to 6) into wounds on tomato leaves. No radioactivity was exported from the treated leaf. [¹⁴C]Sucrose, applied in the same way, was effectively translocated, probably via the phloem. We suggest that pectic substances are not themselves long-distance wound hormones. The possibility remains that pectic substances, solubilised on wounding, act in the immediate vicinity of the wound to stimulate the dispatch of a second messenger, which would be the long-distance wound hormone.Abbreviations DP degree of polymerisation - PI proteinase inhibitor protein - PIIF PI inducing factor - QAE quaternary aminoethyl - TLC thin-layer chromatography     

Photoacoustic and fluorescence measurements of the chilling response and their relationship to carbon dioxide uptake in tomato plants

The response of tomato plants to various chilling treatments was studied using two approaches for the measurement of photosynthetic activity. One involved the use of a portable fluorometer for the measurement of in-vivo chlorophyll fluorescence, while the other employed a newly introduced photoacoustic system which allowed changes in oxygen evolution to be followed in a leaf disc. A strong correlation was found between results obtained by each system and those obtained by a conventional open gas-exchange system for the determination of CO₂ uptake. Both systems of measurements could readily distinguish between the effects of chilling in the dark (at 3° C for 18 h) and chilling at high photon flux density (2000 mol m^-2 s^-1 for 5h at 5° C). Chilling in the dark had practically no effect on the quantum yield of oxygen evolution, chlorophyll fluorescence or CO₂ uptake, while chilling at excessively high photon flux density resulted in a sharp reduction (50–70%) in the quantum yields obtained. The results support the view that photosystem II cannot be the primary site of damage by chilling in the dark, although it is significantly affected by chilling at high light intensity.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - PA photoacoustic - PFD photon flux density - PSII photosystem II     

Purification of tobacco O-methyltransferases by affinity chromatography and estimation of the rate of synthesis of the enzymes during hypersensitive reaction to virus infection

The three tobacco (Nicotiana tabacum L.) S-adenosyl-L-methionine: o-diphenol-O-methyltransferases (OMTs; EC 2.1.1.6) were purified to homogeneity by affinity chromatography on adenosine-agarose. Amounts and catalytic actities of the enzymes were measured in tobacco leaves during the hypersensitive reaction to tobacco mosaic virus. The drastic increase in activity of each enzyme upon infection was shown to arise from the accumulation of enzymatic protein with constant specific enzymatic activity. Rates of OMT synthesis were determined from pulse-labeling experiments with L-[¹⁴C]leucine injected into the leaves. The specific radioactivities of the homogenous enzymes were compared in healthy and tobacco mosaic virus-infected tobacco. The results demonstrated that increase in OMT amounts is a consequence of de novo synthesis of the enzymes.Abbreviations DEAE diethylaminoethyl - OMT O-methyltransferase - SAM S-adenosyl-L-methionine - TMV tobacco mosaic virus     

Gibberellins regulate the abundance of RNAs with sequence similarity to proteinase inhibitors, dioxygenases and dehydrogenases

In an effort to understand the molecular mechanism of gibberellin (GA) action, we have cloned and performed an initial characterization of three cDNAs (GAD1, 2, and 3) which correspond to RNAs that become less abundant by 2 h after treatment of tomato (Lycopersicon esculentum Mill.) shoot tissue with gibberellic acid (GA₃). Treatment with either auxin or ethephon also decreases the abundance of all three of the GAD RNAs. The tomato ethylene-insensitive mutant, Nr, and the GA-deficient mutant, gib1, were used to show that GA or auxin regulation of GAD RNA abundance is not dependent on ethylene sensitivity, and that ethylene or auxin regulation is not dependent on normal levels of gibberellin biosynthesis. Treatment with abscisic acid (ABA) antagonizes the GA induced suppression of the GAD1 and GAD2 RNAs. GAD1 is similar to type-II wound-inducible plant proteinase inhibitors. Like the well-characterized proteinase inhibitor II (pin II) of tomato, the GAD1 and GAD2 RNAs are wound inducible. Induction of pin II and GAD1 RNA in gib1 was found to require less-severe wounding than was required using wild-type plants or plants doubly mutant for gib1 and sit (the sit mutation causes ABA deficiency). The predicted GAD2 protein sequence is similar to 2-oxoglutarate-dependent dioxygenases while the predicted GAD3 protein sequence is similar to proteins belonging to the nonmetalloshort-chain alcohol-dehydrogenase family, especially the T ASSELSEED2 (TS2) gene of maize and bacterial hydroxysteroid dehydrogenases.     

Soybean Kunitz, C-II and PI-IV inhibitor genes confer different levels of insect resistance to tobacco and potato transgenic plants

In modern, highly intensive agriculture, the control of insect pests is basically achieved with the application of chemical pesticides. Heavy reliance on this sole strategy is associated with several drawbacks, and the development of alternative or complementary methods to chemical control is desirable. In this work, three soybean genes (KTi ₃ , C-II and PI-IV)coding for serine proteinase inhibitors were isolated by PCR and transferred to Agrobacterium tumefaciens EHA 105, which in turn was used for transforming tobacco leaf and potato tuber discs. Biochemical assays confirmed that transgenic plants synthesized serine proteinase inhibitors; rates of expression varied among plants. The level of insect resistance (tested with Spodoptera littoralis Boisduval) was particularly high in tobacco, where many plants caused the death of all larvae. In potatoes, larval mortality was much less frequently achieved, but the results were still encouraging in that larval weight gain was reduced by 50% in the presence of adequate amounts of inhibitor. When 8-day-old larvae were fed different KTi ₃ -expressing tobacco plants, a highly significant (P<0.01) correlation was observed between inhibitor content and larval live weight. Larval weight gain was found to be dependent on midgut proteolytic activity. On the basis of the evidence collected, it is suggested that further work is required to identify more specific inhibitors for the main proteinases of the target insect. Received: 30 March 1998 / Accepted: 9 December 1999     

<Emphasis Type="Italic">Brassica napus</Emphasis> possesses an expanded set of polygalacturonase inhibitor protein genes that are differentially regulated in response to <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis> infection,wounding and defense hormone treatment

Most plants encode a limited set of polygalacturonase inhibitor (PGIP) genes that may be involved in aspects of plant development, but more importantly in the inactivation of polygalacturonases (PG) secreted by pathogens. Previously, we characterized two Brassica napus PGIP genes, BnPgip1 and BnPgip2, which were differentially expressed in response to pathogen infection and wounding. Here we report that the B. napus genome encodes a set of at least 16 PGIP genes that are similar to BnPgip1 or BnPgip2. This is the largest Pgip gene family reported to date. Comparison of the BnPGIPs revealed several sites within the xxLxLxx region of leucine rich repeats that form beta-sheets along the interacting face of the PGIP that are hypervariable and represent good candidates for generating PGIP diversity. Characterization of the regulatory regions and RT-PCR studies with gene-specific primers revealed that individual genes were differentially responsive to pathogen infection, mechanical wounding and signaling molecules. Many of the BnPgip genes responded to infection by the necrotic pathogen, Sclerotinia sclerotiorum; however, these genes were also induced either by jasmonic acid, wounding and salicylic acid or some combination thereof. The large number of PGIPs and the differential manner in which they are regulated likely ensures that B. napus can respond to attack from a broad spectrum of pathogens and pests.     

Antioxidative response to cadmium in roots and leaves of tomato plants

Treatment of tomato seedlings (Lycopersicon esculentum Mill. cv. 63/5 F1) with increasing CdCl₂ concentrations in the culture medium resulted in Cd accumulation more important in roots than in leaves. Biomass production was severely inhibited, even at low Cd concentration. Cd reduced chlorophyll content in leaves and enhanced lipid peroxidation. An increase in antioxidative enzyme (superoxide dismutase, ascorbate peroxidase, guaiacol peroxidase, glutathione reductase) activities was more pronounced in leaves than in roots, while catalase activity increased only in roots. In addition, changes in isoenzyme composition were observed using the non-denaturing polyacrylamid gel electrophoresis.