Localization of Pathogenesis-Related Proteins in the Epidermis and Intercellular Spaces of Tobacco Leaves after Their Induction by Potassium Salicylate or Tobacco Mosaic Virus Infection

The localization of pathogenesis-related (PR) proteins inducedin tobacco leaves by treatment with potassium salicylate ora hypersensitive response to tobacco mosaic virus (TMV) infectionwas studied using immunochemical methods. Total PR protein levelsincreased with time after these treatments. The proportion ofPR proteins in the intercellular spaces to the total contentin the leaf discs rapidly rose in the later stage of the treatmentto about 75% on the 9th day after salicylate treatment and tomore than 80% on the 6th to 9th day after TMV inoculation. After5 days of salicylate treatment, the amounts of PR proteins inthe peeled leaf epidermis were two fold those in the mesophylltissue. Only five percent or less of the total PR proteins inthe epidermal and mesophyll tissues of salicylate-treated leaveswere detected in the isolated epidermal and mesophyll protoplasts.The sugar content in highly purified PR la, lb and lc was lessthan one mole of monosaccharide per mole of each protein. Theseresults show that the PR proteins are non-glycoproteins secretedinto the intercellular spaces. (Received January 16, 1987; Accepted July 14, 1987)     

Correlation of viral RNA biosynthesis with glucose-6-phosphate dehydrogenase activity and host resistance

Changes in glucose-6-phosphate dehydrogenase (G6P DH; EC 1.1.1.49) activity caused by infection of tobacco ( Nicotiana tabacum L.) leaves with potato virus Y (PVY), cucumber mosaic virus, potato virus X, tobacco rattle virus and turnip mosaic virus, the subcellular localisation of G6P DH isozymes in mesophyll protoplasts derived from healthy and PVY-infected tobacco leaves, as well as G6P DH control and the relationship of its isozymes with the degree of tobacco resistance to PVY multiplication, were studied. The activities of G6P DH were markedly increased in locally and systemically infected leaves and the time courses of the activity linearly correlated with those of virus multiplication. In leaves infected with PVY, the activity time courses of the crude and the partially purified G6P DH were coincident. This probably indicates the involvement of coarse regulation of the enzyme. PVY content linearly correlated with enhanced G6P DH activity in leaf discs derived from susceptible, tolerant and resistant cultivars of tobacco. The increased activity of the enzyme in infected protoplasts and plant tissues was predominantly caused by the increased activity of chloroplastic isozymes. This was confirmed by the specific staining of isozymes after electrophoretic separation of chloroplastic proteins of tobacco leaves. These findings enable the degree of resistance to virus multiplication to be quantified for the use of gene manipulation and breeding.     

Synthesis of Stress Proteins in Tobacco Leaves

Pathogenesis-related proteins (PR proteins), which are knownto be induced in tobacco leaves in response to infection withtobacco mosaic virus (TMV), were isolated by a simple procedureinvolving ammonium sulfate fractionation and preparative gelelectrophoresis. A rabbit antibody to one of the purified PRproteins, designated as PR1a, also reacted with two other PRproteins, designated as PR1b and PR1c in double immunodiffusiontests. Quantitative analysis of these proteins using rocketimmunoelectrophoresis with the antibody showed that they wereinduced not only by infection with TMV but also by mechanicalinjury and osmotic stress at 20?C, although not at 30?C. Basedon these findings, we propose that these proteins be called"stress proteins" rather than "pathogenesis-related proteins." (Received October 23, 1984; Accepted January 18, 1985)     

A strobilurin fungicide enhances the resistance of tobacco against tobacco mosaic virus and Pseudomonas syringae pv tabaci

The strobilurin class of fungicides comprises a variety of synthetic plant-protecting compounds with broad-spectrum antifungal activity. In the present study, we demonstrate that a strobilurin fungicide, F 500 (Pyraclostrobin), enhances the resistance of tobacco (Nicotiana tabacum cv Xanthi nc) against infection by either tobacco mosaic virus (TMV) or the wildfire pathogen Pseudomonas syringae pv tabaci. F 500 was also active at enhancing TMV resistance in NahG transgenic tobacco plants unable to accumulate significant amounts of the endogenous inducer of enhanced disease resistance, salicylic acid (SA). This finding suggests that F 500 enhances TMV resistance in tobacco either by acting downstream of SA in the SA signaling mechanism or by functioning independently of SA. The latter assumption is the more likely because in infiltrated leaves, F 500 did not cause the accumulation of SA-inducible pathogenesis-related (PR)-1 proteins that often are used as conventional molecular markers for SA-induced disease resistance. However, accumulation of PR-1 proteins and the associated activation of the PR-1 genes were elicited upon TMV infection of tobacco leaves and both these responses were induced more rapidly in F 500-pretreated plants than in the water-pretreated controls. Taken together, our results suggest that F 500, in addition to exerting direct antifungal activity, may also protect plants by priming them for potentiated activation of subsequently pathogen-induced cellular defense responses.     

Beta-1,3 glucan sulfate, but not beta-1,3 glucan, induces the salicylic acid signaling pathway in tobacco and Arabidopsis

Sulfate substituents naturally occurring in biomolecules, such as oligosaccharides and polysaccharides, can play a critical role in major physiological functions in plants and animals. We show that laminarin, a beta-1,3 glucan with elicitor activity in tobacco (Nicotiana tabacum), becomes, after chemical sulfation, an inducer of the salicylic acid (SA) signaling pathway in tobacco and Arabidopsis thaliana. In tobacco cell suspensions, the oxidative burst induced by the laminarin sulfate PS3 was Ca2+ dependent but partially kinase independent, whereas laminarin triggered a strickly kinase-dependent oxidative burst. Cells treated with PS3 or laminarin remained fully responsive to a second application of laminarin or PS3, respectively, suggesting two distinct perception systems. In tobacco leaves, PS3, but not laminarin, caused electrolyte leakage and triggered scopoletin and SA accumulation. Expression of different families of Pathogenesis-Related (PR) proteins was analyzed in wild-type and mutant tobacco as well as in Arabidopsis. Laminarin induced expression of ethylene-dependent PR proteins, whereas PS3 triggered expression of ethylene- and SA-dependent PR proteins. In Arabidopsis, PS3-induced PR1 expression was also NPR1 (for nonexpressor of PR genes1) dependent. Structure-activity analysis revealed that (1) a minimum chain length is essential for biological activity of unsulfated as well as sulfated laminarin, (2) the sulfate residues are essential and cannot be replaced by other anionic groups, and (3) moderately sulfated beta-1,3 glucans are active. In tobacco, PS3 and curdlan sulfate induced immunity against Tobacco mosaic virus infection, whereas laminarin induced only a weak resistance. The results open new routes to work out new molecules suitable for crop protection.     

The Elicitation of Ethylene Biosynthesis by a Trichoderma Xylanase Is Not Related to the Cell Wall Degradation Activity of the Enzyme

A [beta]-1,4-endoxylanase (EIX) isolated from Trichoderma viride elicits plant defense responses in certain tobacco (Nicotiana tabacum L.) cultivars in addition to its xylan degradation activity. It was not clear whether elicitation occurs by cell wall fragments released by the enzymic activity or by the xylanase protein interacting directly with the plant cells. We used protoplasts isolated from tobacco leaves to test whether the cell wall is required for the stimulation of ethylene biosynthesis by EIX. Protoplasts of tobacco (cv Xanthi) responded to treatment with the EIX, as indicated by an increased production of ethylene and the loss of protoplast viability. Protoplasts prepared from ethylene-pretreated leaves produced more ethylene and had higher rates of cell death in response to EIX than protoplasts prepared from nonethylene-treated leaves. Protoplasts of an EIX-insensitive cultivar of tobacco (Hicks) were insensitive to high concentrations of EIX. The addition of a crude cell wall preparation to protoplasts during incubation with EIX did not enhance the induction of ethylene biosynthesis by nonsaturating as well as saturating concentrations of EIX. These data indicate that the xylanase activity of EIX is unrelated to the elicitation of ethylene biosynthesis through the production of some cell wall fragment, since the protein per se appears capable of eliciting ethylene biosynthesis in protoplasts.     

Tobacco Mesophyll Protoplasts Synthesize 1,3-beta-Glucanase, Chitinases, and "Osmotins" during in Vitro Culture

Tobacco (Nicotiana tabacum) mesophyll protoplasts synthesize six basic proteins (a, a′, a₁, b, b′, and c) which are undetectable in the leaf and whose synthesis is reduced by auxin (Y Meyer, L Aspart, Y Chartier [1984] Plant Physiol 75: 1027-1033). Polypeptides a, a′, and a₁ were shown to have similar mobilities on two-dimensional electrophoresis as one 1,3-β-glucanase and two chitinases from tobacco mosaic virus-infected leaves. In immunoblotting experiments, polypeptide a was recognized by specific antibodies raised against the 1,3-β-glucanase and a′ and a₁ reacted with anti-chitinase antibodies. Similarly, b and b′ comigrated with osmotin and its neutral counterpart, two proteins characteristic of salt-adapted tobacco cells, and reacted with anti-osmotin antibodies. In addition it has been shown that 1,3-β-glucanase and chitinase activities increased at the same time as a, a′, and a₁ accumulated in cultivated protoplasts. Finally, polypeptide c was also detected in tobacco mosaic virus-infected leaves but could not be identified as any of the pathogenesis-related proteins characterized so far in tobacco. Thus, cultivated tobacco protoplasts synthesize and accumulate typical stress proteins.     

Pathogenesis-related PR-1 proteins are antifungal. Isolation and characterization of three 14-kilodalton proteins of tomato and of a basic PR-1 of tobacco with inhibitory activity against Phytophthora infestans.

Three distinct basic 14-kD proteins, P14a, P14b, and P14c, were isolated from tomato (Lycopersicon esculentum Mill. cv Baby) leaves infected with Phytophthora infestans. They exhibited antifungal activity against P. infestans both in vitro (inhibition of zoospore germination) and in vivo with a tomato leaf disc assay (decrease in infected leaf surface). Serological cross-reactions and amino acid sequence comparisons showed that the three proteins are members of the PR-1 group of pathogenesis-related (PR) proteins. P14a and P14b showed high similarity to a previously characterized P14, whereas P14c was found to be very similar to a putative basic-type PR-1 from tobacco predicted from isolated DNA clones. This protein, named PR-1 g, was purified from virus-infected tobacco (Nicotiana tabacum Samsun NN) leaves and characterized by amino acid microsequencing, along with the well-known acidic tobacco PR-1a, PR-1b, and PR-1c. The various tomato and tobacco PR-1 proteins were compared for their biological activity and found to display differential fungicidal activity against P. infestans in both the in vitro and in vivo assays, the most efficient being the newly characterized tomato P14c and tobacco PR-1g.     

Immunochemical Localization of Pathogenesis-Related Proteins Secreted into the Intercellular Spaces of Salicylate-Treated Tobacco Leaves

In tobacco leaves, pathogenesis-related (PR) 1 proteins areabundantly induced by hypersensitive reaction to the infectionwith tobacco mosaic virus (TMV) and by treatment with salicylicacid, and are secreted into the intercellular spaces. To studythe distribution of PR 1 proteins outside of the cells, theimmunogold technique was used with anti-PR 1 antibody. Whensections of salicylate-treated tobacco leaf were reacted withantibody against PR 1a and then with protein A-gold complex,most of the gold label was localized in the intercellular spacesin the region between cells, and a little label was found inthe cytoplasmic matrix and in small electron-dense granulesinside the cells. When salicylate-treated leaves were incubatedwith polygalacturonase and/or cellulase to liberate protoplastsor single cells from the tissue, most of PR 1 proteins weresolubilized far before complete liberation of single cells,suggesting their localization in free spaces or a region susceptableto maceration, such as the secondary cell wall. (Received May 30, 1988; Accepted June 27, 1988)     

Isolation of tobacco mesophyll cells in intact and active state

A procedure using a fungal pectinase was developed to rapidlyrelease mesophyll cells from tobacco leaves. Fifty to ninetyper cent of the released cells were morphologically intact andwere converted into spherical protoplasts by cellulase treatment.Cells isolated from tobacco mosaic virus-inoculated leaves supportedmultiplication of the virus during subsequent incubation. (Received December 14, 1967; )     

The mechanism of infection of plant protoplasts by viruses

Summary The process of virus infection of protoplasts isolated from tobacco leaves has been examined by means of electron microscopy. Immediately after inoculation, virus particles appear at two types of site: trapped in complex surface lesions of the plasmalemma, or in peripheral cytoplasmic vesicles. The complex lesions are only visible after treatment of the protoplasts with inocula containing poly-l-ornithine. With infection by tobacco mosaic virus and cowpea chlorotic mottle virus, which require poly-l-ornithine, the majority of virus particles occur at lesion sites. Pea enation mosaic virus, which does not require poly-l-ornithine for infection to become established, is found predominantly and in high numbers in peripheral vesicles. The behaviour of these three viruses is discussed in terms of a probable mechanism for infection of the protoplasts.     

Induction of resistance and expression of defense-related genes in tobacco leaves infiltrated with Ralstonia solanacearum

Ralstonia solanacearum 8107 (8107) is non-pathogenic to tobacco and elicits the hypersensitive response (HR). In Nicotiana tabacum cv. Samsun NN leaves infiltrated with 8107, acquired resistance to challenging tobacco mosaic virus (TMV) was induced 2-6 d after 8107-infiltration. hsr203J and hin1 genes were expressed only in the 8107-infiltrated area. On the other hand, the expression of PR-1a and PR-1b genes was not detected in the 8107-infiltrated area, but in areas other than that developing the HR. Expression of these PR-1 genes was regulated simultaneously and the kinetics of the expression was dependent on the distance from the infiltration area. Therefore, diffusible signal(s) might be produced in HR-causing cells and transmitted to peripheral cells resulting in expression of PR genes. In NahG10 tobacco infiltrated with 8107, the HR was induced but resistance to TMV was not. Analysis using NahG10 tobacco also showed that the salicylic acid (SA)-dependent signal regulated the expression of hsr203J and PR-1a, but not that of hin1 and PR-1b. These results suggest that resistance of tobacco to 8107 is SA-independent and involves a quite different mechanism from acquired resistance to TMV induced by 8107-infiltration which is SA-dependent.     

Ultraviolet light and ozone stimulate accumulation of salicylic acid,pathogenesis-related proteins and virus resistance in tobacco

In tobacco (Nicotiana tabacum L. cv. Xanthinc), salicylic acid (SA) levels increase in leaves inoculated by necrotizing pathogens and in healthy leaves located above the inoculated site. Systemic SA increase may trigger disease resistance and synthesis of pathogenesis-related proteins (PR proteins). Here we report that ultraviolet (UV)-C light or ozone induced biochemical responses similar to those induced by necrotizing pathogens. Exposure of leaves to UV-C light or ozone resulted in a transient ninefold increase in SA compared to controls. In addition, in UV-light-irradiated plants, SA increased nearly fourfold to 0.77 g·g^–1 fresh weight in leaves that were shielded from UV light. Increased SA levels were accompanied by accumulation of an SA conjugate and by an increase in the activity of benzoic acid 2-hydroxylase which catalyzes SA biosynthesis. In irradiated and in unirradiated leaves of plants treated with UV light, as well as in plants fumigated with ozone, PR proteins 1a and 1b accumulated. This was paralleled by the appearance of induced resistance to a subsequent challenge with tobacco mosaic virus. The results suggest that UV light, ozone fumigation and tobacco mosaic virus can activate a common signal-transduction pathway that leads to SA and PR-protein accumulation and increased disease resistance.Abbreviations PR protein pathogenesis-related protein - SA salicylic acid - TMV tobacco mosaic virus - UV ultraviolet This work was financed by grants from the U.S. Department of Agriculture (Competitive Research Grants Office), Division of Energy Biosciences of U.S. Department of Energy, the Rockefeller Foundation, the New Jersey Commission for Science and Technology, and the New Jersey Agricultural Experiment Station.     

Differential induction of acquired resistance and PR gene expression in tobacco by virus infection,ethephon treatment,UV light and wounding

Genes for acidic, extracellular and basic, intracellular pathogenesis-related (PR) proteins of tobacco were studied for their response to tobacco mosaic virus (TMV) infection, ethephon treatment, wounding and UV light. The genes encoding the acidic PR proteins (PR-1, PR-2, PR-3, PR-4 and PR-5) responded similarly to the different forms of stress. They appeared to be highly inducible by TMV, moderately inducible by ethephon treatment and UV light and not inducible by wounding. The genes for the basic counterparts of PR-1, PR-2, PR-3 and PR-5 also displayed a common stress response. However, this response was different from that of the acidic PR proteins. Here, the highest induction was obtained upon ethephon treatment, while the other stress conditions resulted in somewhat lower levels of expression. Most genes for acidic PR proteins are systemically induced in the uninfected upper leaves of TMV-infected plants, whereas the genes encoding the basic PR proteins are not. Increased levels of resistance to TMV, comparable to resistance obtained by pre-infection with the virus, were found in UV-irradiated leaves but not in wounded or ethephon-treated leaves. This indicates that the basic PR proteins are not involved in resistance to TMV infection. Tobacco phenylalanine ammonia-lyase genes were not inducible by the various stress conditions. The implications of these findings in relation to the phenomenon of acquired resistance are discussed.     

Amino acid sequence of the ;pathogenesis-related' leaf protein p14 from viroid-infected tomato reveals a new type of structurally unfamiliar proteins

We have established the complete sequence of the 130 amino acid residues of the pathogenesis-related (PR) protein p14 accumulating in tomato leaves infected with the viroid of the spindle tuber disease of potato (PSTV) and partial sequences of the PR protein 1a which accumulates in tobacco mosaic virus-infected tobacco leaves. Both PR proteins are closely related to each other. However, no homology could be found between the sequence of p14 and any of the 3061 published protein sequences compiled in the protein sequence database at present. Thus, p14 represents not only the first completely sequenced PR plant protein but also a new type of structurally unfamiliar proteins whose biological function in the diseased plant remains to be elucidated.     

Production of 6-methylsalicylic acid by expression of a fungal polyketide synthase activates disease resistance in tobacco

Salicylic acid (SA) has been shown to act as a signal molecule that is produced by many plants subsequent to the recognition of potentially pathogenic microbes. Increases in levels of SA often trigger the activation of plant defenses and can result in increased resistance to subsequent challenge by pathogens. We observed that the polyketide 6-methylsalicylic acid (6-MeSA), a compound that apparently is not endogenous to tobacco, can mimic SA. Tobacco leaves treated with 6-MeSA show enhanced accumulation of the pathogenesis-related (PR) proteins PR1, beta-1,3-glucanase, and chitinase and also develop increased resistance to tobacco mosaic virus. We transformed tobacco with 6msas, the 6-methylsalicylic acid synthase (6MSAS) gene from Penicillium patulum, to generate plants that constitutively accumulate 6-MeSA. Analysis of primary transformants and the first generation progeny of 6MSAS tobacco revealed that plants can be engineered to accumulate significant amounts of 6-MeSA as a conjugate. Levels of total 6-MeSA increased with plant age. Increased 6-MeSA accumulation correlated with increased levels of PR1 and chitinase proteins and resulted in enhanced resistance of NN genotype 6MSAS tobacco to tobacco mosaic virus. Our results demonstrate that a multistep biosynthetic pathway can be engineered into plants using a single fungal polyketide synthase gene. The functional expression of 6msas can be used to activate disease resistance pathways that normally are induced by SA.     

A zinc finger protein Tsip1 controls Cucumber mosaic virus infection by interacting with the replication complex on vacuolar membranes of the tobacco plant

? In Cucumber mosaic virus (CMV) RNA replication, replicase-associated protein CMV 1a and RNA-dependent RNA polymerase protein CMV 2a are essential for formation of an active virus replicase complex on vacuolar membranes. ? To identify plant host factors involved in CMV replication, a yeast two-hybrid system was used with CMV 1a protein as bait. One of the candidate genes encoded Tsi1-interacting protein 1 (Tsip1), a zinc (Zn) finger protein. Tsip1 strongly interacted with CMV 2a protein, too. ? Formation of a Tsip1 complex involving CMV 1a or CMV 2a was confirmed in vitro and in planta. When 35S::Tsip1 tobacco (Nicotiana tabacum) plants were inoculated with CMV-Kor, disease symptom development was delayed and the accumulation of CMV RNAs and coat protein was decreased in both the infected local leaves and the uninfected upper leaves, compared with the wild type, whereas Tsip1-RNAi plants showed modestly but consistently increased CMV susceptibility. In a CMV replication assay, CMV RNA concentrations were reduced in the 35S::Tsip1 transgenic protoplasts compared with wild-type (WT) protoplasts. ? These results indicate that Tsip1 might directly control CMV multiplication in tobacco plants by formation of a complex with CMV 1a and CMV 2a.