Dark and light green tissues of tobacco leaves systemically infected with tobacco mosaic virus

There are significant changes in the structure of the upper tobacco (Nicotiana tabacum L.) leaves systemically infected with tobacco mosaic virus (TMV) especially in the light green tissue (LGT). Dark green areas (DGI) had intermediate status between healthy tissue and LGT. DGI contained significantly less infectious TMV and viral antigen than the LGT. The DGI, LGT and healthy tissues did not differ in the permeability of cell membranes and in the set of acidic pathogenesis-related (PR) proteins but the total content of PR-proteins in the healthy plants was higher than in the infected ones with the DGI being intermediate between healthy tissue and LGT. The crude leaf extracts from DGI and LGT showed less total ribonuclease activity and ribonuclease isozymes in comparison with control.     

cDNA cloning of six mRNAs induced by TMV infection of tobacco and a characterization of their translation products

A cDNA library was constructed to 10-15 S poly(A) RNA from tobacco mosaic virus (TMV)-infected Samsun NN tobacco. By differential colony hybridization of 1400 transformants, 32 clones were obtained corresponding to TMV-inducible tobacco mRNAs. These clones were subdivided into six clusters on the basis of cross-hybridization of the inserts. By Northern blot hybridization it was shown that three of the corresponding mRNAs were strongly induced by spraying tobacco plants with salicylic acid, whereas one mRNA was weakly induced by this treatment. All mRNAs were systemically induced in plants in which only the lower leaves were locally infected by TMV. Hybrid-selected translation was performed, using six clones representing one cluster each, followed by immunoprecipitation using an antiserum to purified pathogenesis-related (PR) proteins. Four clones yielded precipitable translation products. One of these clones represented a cluster of PR-1 clones, another clone encoded the thaumatin-like (TL) protein of tobacco which may correspond to PR-P or −Q.     

Molecular characterization of messenger RNAs for 'pathogenesis related' proteins la, lb and lc, induced by TMV infection of tobacco

A cDNA library was made to poly(A)-containing RNA from tobacco mosaic virus (TMV)-infected Samsun NN tobacco plants and clones corresponding to mRNAs for the `pathogenesis-related' (PR) proteins 1a, 1b and 1c were identified. One clone was found to contain a complete copy of PR-1b mRNA. The structural organization of this RNA is: a leader sequence of 29 nucleotides, an open reading frame of 504 nucleotides encoding a 30 amino acid long signal peptide and a 138 amino acid long mature protein, and a 3'-non-coding region of 235 nucleotides. Two other clones were found to contain partial copies of PR-1a and PR-1c mRNAs. The data indicate an ~90% homology between the amino acid sequences of PR-1a, -1b and -1c. Using one of the clones as probe it was shown that in the TMV-inoculated lower leaves and the non-inoculated upper leaves of a tobacco plant, the PR-1 mRNAs become detectable from 2 and 8 days after inoculation, respectively.     

Spermine Is a Salicylate-Independent Endogenous Inducer for Both Tobacco Acidic Pathogenesis-Related Proteins and Resistance against Tobacco Mosaic Virus Infection

Intercellular spaces are often the first sites invaded by pathogens. In the spaces of tobacco mosaic virus (TMV)-infected and necrotic lesion-forming tobacco (Nicotiana tabacum L.) leaves, we found that an inducer for acidic pathogenesis-related (PR) proteins was accumulated. The induction activity was recovered in gel-filtrated fractions of low molecular mass with a basic nature, into which authentic spermine (Spm) was eluted. We quantified polyamines in the intercellular spaces of the necrotic lesion-forming leaves and found 20-fold higher levels of free Spm than in healthy leaves. Among several polyamines tested, exogenously supplied Spm induced acidic PR-1 gene expression. Immunoblot analysis showed that Spm treatment increased not only acidic PR-1 but also acidic PR-2, PR-3, and PR-5 protein accumulation. Treatment of healthy tobacco leaves with salicylic acid (SA) caused no significant increase in the level of endogenous Spm, and Spm did not increase the level of endogenous SA, suggesting that induction of acidic PR proteins by Spm is independent of SA. The size of TMV-induced local lesions was reduced by Spm treatment. These results indicate that Spm accumulates outside of cells after lesion formation and induces both acidic PR proteins and resistance against TMV via a SA-independent signaling pathway.     

The Extracellular Acidic and Basic Pathogenesis-Related Proteins of Soybean Induced by Viral Infection

Seventeen major host-encoded pathogenesis related (PR)-proteins have been found in intercellular fluids of necrotic virus-infected soybean leaves. None of them was present in fluids of healthy controls. By native and SDS-denaturing polyacrylamide gel electrophoresis, ten major acidic PR-proteins have been identified and classified on the basis of their molecular weight in three groups: group 1 included four proteins of 16–17 Kd; group 2, three proteins of 26 Kd; group 3, three proteins of 32 Kd. Seven PR-proteins were basic, and were classified in three groups: group 1 included three proteins of 16 Kd; group 2, one protein of 23 Kd; group 3, three proteins of 32 Kd. As found for tobacco and potato, soybean PR-protein patterns show high number of acidic and basic proteins.     

The Effects of Aspirin and Polyacrylic Acid on the Multiplication and Spread of TMV in Different Cultivars of Tobacco with and without the N-gene

Aspirin treatment of leaves of Nicotiana tabacum cv. Samsun at 20°C induced PR-proteins and reduced the amount of tobacco mosaic virus (TMV) accumulated 7 days after inoculation. However, at 32°C both the amount of PR-proteins induced and the reduction of TMV accumulated were less. Polyacrylic acid did not induce PR-proteins, and caused little or no reduction in the amount of TMV accumulated at 20°C. In cv. Samsun NN at 32°C. aspirin induced the PR-proteins and reduced the spread of TMV to surrounding tissue as treasured by the size of lesions produced on subsequent transfer to 20°C. Polyacrylic acid did not induce PR-proteins in Samsun NN and had no effect on the spread of TMV. In cv. Xanthi-ne, at 32°C aspirin and polyacrylic acid induced PR-proteins and reduced the spread of TMV. At 35°C, polyacrylic acid induced little or no PR-proteins and did not affect the spread of TMV.     

Purification and characterization of 8 of the pathogenesis-related proteins in tobacco leaves reacting hypersensitively to tobacco mosaic virus

Summary Leaves of tobacco plants (Nicotiana tabacum cv. Samsun NN) which are reacting hypersensitively to infection with tobacco mosaic virus contain 10 major pathogenesis-related (PR) proteins which are absent, or present in small amounts in uninfected leaves. We describe here a preparative procedure of purification of the tobacco PR-proteins which involves a combination of conventional and high-performance liquid chromatography. The separation and isolation of the proteins were based on differences in net charge at different pH values, in isoelectric point and in apparent molecular weight. This procedure led to the purification to homogeneity of 8 PR-proteins, as shown by polyacrylamide slab gel electrophoresis (PAGE) of the purified proteins under denaturing and non-denaturing conditions. These were the 3 well-known proteins PR-1a,-1b and-1c, and 5 other major PR-proteins, called PR-2,-N,-O,-P and-Q, according to the nomenclature of Van Loon (39). None of the purified PR-proteins gave a positive Schiff reaction for carbohydrate content. Molecular weight determinations from gel permeation chromatography and from sodium dodecyl sulphate (SDS)-PAGE indicated that all 8 PR-proteins were monomers and that three groups could be distinguished among them. The first group is the PR-1 group containing PR-1a,-1b and-1c (12000 MW), the second consists of PR-P and PR-Q (14000 MW) and the third of PR-2, PR-N and PR-O (25000 MW). In the PR-1 group, PR-1a can be distinguished clearly from the two other members on denaturing slab gels containing both SDS and urea.     

Homology between chitinases that are induced by TMV infection of tobacco

Recently, four chitinases have been detected in tobacco mosaic virus (TMV) infected tobacco: two acidic chitinases that were identified as pathogenesis-related (PR) proteins P and Q and two basic chitinases (Legrand et al., Proc.Natl. Acad. Sci. USA, in press). Here, it was shown that P and Q are closely serologically related but not related to other known acidic tobacco PR proteins. Antisera to P and Q were used to characterize translation products of TMV-induced mRNAs that were hybrid-selected with cDNA clones described previously (Hooft van Huijsduijnen et al., EMBO J 5: 2057–2061, 1986). In this way cDNA clones corresponding to the acidic and basic chitinases were identified. The partial amino acid sequences of the acidic and basic tobacco chitinases that were represented in the clones, showed an approximately 70% homology to each other and to the sequence of a bean chitinase. Although the acidic and basic chitinases differ in apparent molecular weight, they were found to have homologous C-termini.Hybridization of cDNA probes to genomic blots indicated that the acidic and basic chitinases are each encoded by two to four genes in the amphidiploid genome of Samsun NN tobacco. A similar complexity was found for the genes encoding the tobacco PR protein that is homologous to the sweet-tasting protein thaumatin and to the bifunctional trypsin/-amylase inhibitor from maize.     

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.     

Functions of oligochitosan induced protein kinase in tobacco mosaic virus resistance and pathogenesis related proteins in tobacco

Oligochitosan (OC) can regulate plant defense responses in many aspects, but the basic signal transduction pathway is still unclear. In this study, we used transgenic (TG) tobacco (Nicotiana Tabacum var. Samsun NN) as plant material whose oligochitosan induced protein kinase (OIPK) gene was inhibited by antisense transformation, to study the role of OIPK in tobacco defense reactions. The results showed that OIPK could increase tobacco resistance against tobacco mosaic virus (TMV), in that wild-type (WT) tobacco showed longer lesion appearance time, higher lesion inhibition ratio, smaller average final lesion diameter and lower average final lesion area percent to whole leaf area. It led us to analyze some pathogenesis related (PR) enzymes' activities and mRNA level, which played roles in tobacco resistance against TMV. We found that phenylalanine ammonia-lyase (PAL) and peroxidase (POD) activities were positively related to OIPK, but not polyphenol oxidase (PPO). It was also demonstrated that OIPK mRNA could be induced by OC, wound and TMV infection. In addition, OIPK could up-regulated three PR genes, PAL, chitinase (CHI) and β-1, 3-glucanase (GLU) mRNA level to different extent. Taken together, these results implied that OIPK could function in tobacco resistance against both biotic and abiotic stress, possibly via various PR proteins.     

Isolation and characterization of cDNA clones encoding pathogenesis-related proteins from tobacco mosaic virus infected tobacco plants.

Infection of the tobacco cultivar Samsun NN by tobacco mosaic virus (TMV) results in a hypersensitive response. During this defense reaction several host encoded proteins, known as pathogenesis-related proteins (PR-proteins), are induced. Poly(A)+ RNA from TMV infected tobacco plants was used to construct a cDNA library. Thirty two cDNA clones were isolated and after digestion with different restriction endonucleases, twenty clones were found to code for PR-1a, six clones for PR-1b, and four clones for PR-1c. Two independent cDNA clones of each class were further characterized by DNA sequence analysis. All clones analyzed contained the 138 amino acid coding regions of their respective mature proteins, but only partial sequences of the signal peptides. Minor differences between the nucleotide sequences for clones belonging to the same class were detected. Comparison of the amino acid sequence for PR-1a deduced from its nucleotide sequence with published data obtained by Edman degradation of the protein showed four differences. Analysis of the 3' ends of the cDNA clones indicates that various alternate poly(dA) addition sites are used. Southern blot analysis using these cDNAs as probes suggests the presence of multiple PR-protein genes in the genomes of tobacco and tomato plants.     

Pathogenesis-related acidic beta-1,3-glucanase genes of tobacco are regulated by both stress and developmental signals

Three pathogenesis-related (PR) proteins of tobacco are acidic isoforms of beta-1,3-glucanase (PR-2a, -2b, -2c). We have cloned and sequenced a partial cDNA clone (lambda FJ1) corresponding to one of the PR-2 beta-1,3-glucanases. A small gene family encodes the PR-2 proteins in tobacco, and similar genes are present in a number of plant species. We analyzed the stress and developmental regulation of the tobacco PR-2 beta-1,3-glucanases by using northern and western analyses and a new technique to assay enzymatic activity. Stress caused by both thiamine and tobacco mosaic virus (TMV) infection resulted in a dramatic increase in the levels of PR-2 mRNA, protein, and enzyme activities. The increased PR-2 gene expression in upper uninoculated leaves of plants infected with TMV also suggests a role in systemic acquired resistance. During floral development, a number of beta-1,3-glucanase activities were observed in all flower tissues. However, PR-2 polypeptides were observed only in sepal tissue. In contrast, an mRNA that hybridized to the PR-2 cDNA was present in stigma/style tissue and the sepals. Primer extension analysis confirmed the identity of the PR-2 mRNA in sepals, but indicated that the beta-1,3-glucanase gene expressed in the stigma/style of flowers was distinct from the PR-2 genes. The induction of PR-2 protein synthesis by both stress and developmental signals was accompanied by a corresponding increase in the steady-state levels of PR-2 mRNA, suggesting that PR-2 gene expression is regulated, in part, at the level of mRNA accumulation.     

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)     

Glucose-6-Phosphate Dehydrogenase, Ribonucleases and Esterases upon Tobacco Mosaic Virus Infection and Benzothiodiazole Treatment in Tobacco

Effect of the benzothiodiazole (BTH) pre-treatment was monitored during the acute infection stage in the susceptible and the hypersensitive tobacco plants infected with the tobacco mosaic virus (TMV). Dynamic changes in the contents of chlorophyll, the total proteins, and the pathogenesis related proteins (PR-proteins), and activities of ribonucleases (RNase), phosphomonoesterase (PME), phosphodiesterase (PDE), and glucose-6-phosphate dehydrogenase (G6P DH) were studied. Neither the protein nor the chlorophyll contents were significantly changed by the TMV infection and/or the BTH treatment. The BTH pre-treatment caused a substantial reduction in the multiplication of TMV in the locally-infected leaves of the hypersensitive cultivar Xanthi-nc (to 15.1%). A lesser decrease (to 50.3%) was observed in the locally-infected leaves of susceptible cultivar Samsun. But in the systemically-infected leaves of this cultivar, only a 4-d delay in the multiplication of TMV was found. In the locally-infected leaves of both cultivars, the activities of the RNase, PME, PDE and G6P DH were sharply increased during the acute phase of TMV multiplication (when compared with the healthy plants) and the curves of these activities correlated with the multiplication curves of TMV. The BTH alone also strongly enhanced the activities of these enzymes early after application. Only low additional increases in some enzymes and even slight declines in the others were observed when the inoculation of leaves of cultivar Xanthi-nc followed the pre-treatment with the BTH. No inhibition of the enzymes was observed when the direct effect of different concentration of the BTH (1 – 1000 M) was examined in vitro during a measurement of the activity. The analysis of intercellular proteins by PAGE under native conditions shows the similar spectrum of the proteins extracted from either the BTH-treated or the TMV-infected tobacco cv. Xanthi-nc.     

Structure of tobacco genes encoding pathogenesis-related proteins from the PR-1 group.

Infection of Samsun NN tobacco with tobacco mosaic virus (TMV) was found to induce the synthesis of mRNA encoding a basic protein with a 67% amino acid sequence homology to the known acidic pathogenesis-related (PR) proteins 1a, 1b and 1c. By Southern blot hybridization it was shown that the tobacco genome contains at least eight genes for acidic PR-1 proteins and a similar number of genes encoding the basic homologues. Clones corresponding to three of the genes for acidic PR-1 proteins were isolated from a genomic library of Samsun NN tobacco. The nucleotide sequence of these genes and their flanking sequences were determined. One clone was found to correspond to the PR-1a gene; the two other clones do not correspond to known TMV-induced PR-1 mRNA's and may represent silent genes. Compared to the PR-1a gene, these genes contain an insertion or deletion in the putative promoter region and mutations affecting the PR-1 reading frame.     

Regulation of enzymes involved in lignin biosynthesis: induction of O-methyltransferase mRNAs during the hypersensitive reaction of tobacco to tobacco mosaic virus.

The mRNAs encoding orthodiphenol-O-methyltransferases (OMTs; EC 2.1.1.6), which are involved in the biosynthesis of lignin precursors, are highly induced in tobacco leaves during the hypersensitive reaction to tobacco mosaic virus (TMV). OMT messengers were fractionated on a sucrose gradient and translated in vitro. Protein A-Sepharose columns adsorbed with specific antisera raised against purified OMTs were used to select translation products, and the translatable activity of OMT mRNA was measured at different stages of infection. Oligonucleotides derived from peptide sequences of purified OMT I were used to prime polymerase chain reactions; total RNA was used as template to allow the isolation of an OMT I clone. RNA blots, hybridized with the OMT I probe, revealed a unique messenger of 1.7 kb. The kinetics of accumulation of OMT I mRNAs during the hypersensitive reaction to TMV parallels the kinetics of translation and suggests that an increase in mRNA controls the increase in the rate of enzyme synthesis. In healthy plants, RNA blot hybridization showed that the steady-state level of OMT I mRNA is very high in vascular tissue compared to the level measured in leaves.     

Tobacco plants epigenetically suppressed in phenylalanine ammonia-lyase expression do not develop systemic acquired resistance in response to infection by tobacco mosaic virus

The response of tobacco (Nicotiana tabacum L. cv. Xanthinc) plants, epigenetically suppressed for phenylalanine ammonia-lyase (PAL) activity, was studied following infection by tobacco mosaic virus (TMV). These plants contain a bean PAL2 transgene in the sense orientation, and have reduced endogenous tobacco PAL mRNA and suppressed production of phenylpropanoid products. Lesions induced by TMV infection of PAL-suppressed plants are markedly different in appearance from those induced on control plants that have lost the bean transgene through segregation, with a reduced deposition of phenofics. However, they develop at the same rate as on control tobacco, and pathogenesis-related (PR) proteins are induced normally upon primary infection. The levels of free salicylic acid (SA) produced in primary inoculated leaves of PAL-suppressed plants are approximately fourfold lower than in control plants after 84 h, and a similar reduction is observed in systemic leaves. PR proteins are not induced in systemic leaves of PAL-suppressed plants, and secondary infection with TMV does not result in the restriction of lesion size and number seen in control plants undergoing systemic acquired resistance (SAR). In grafting experiments between wild-type and PAL-suppressed tobacco, the SAR response can be transmitted from a PAL-suppressed root-stock, but SAR is not observed if the scion is PAL-suppressed. This indicates that, even if SA is the systemic signal for establishment of SAR, the amount of pre-existing phenylpropanoid compounds in systemic leaves, or the ability to synthesize further phenylpropanoids in response to the systemic signal, may be important for the establishment of SAR. Treatment of PAL-suppressed plants with dichloro-isonicotinic acid (INA) induces PR protein expression and SAR against subsequent TMV infection. However, treatment with SA, while inducing PR proteins, only partially restores SAR, further suggesting that de novo synthesis of SA, and/or the presence or synthesis of other phenylpropanoids, is required for expression of resistance in systemic leaves.     

Changes in Composition of Soluble Intercellular Proteins Isolated from Healthy and TMV-Infected Nicotiana tabacum L. cv. Xanthi-nc

Changes in ribonucleases (RNases), phosphomonoesterase (PME), phosphodiesterase (PDE), glucose-6-phosphate dehydrogenase (G6P DH), polyphenoloxidases, peroxidases and proteases activity and PR-proteins composition in leaf tissue and intercellular fluid (ICF) isolated from leaf tissue of healthy and TMV-infected hypersensitive tobacco (Nicotiana tabacum L. cv. Xanthi-nc) plants (non-inoculated leaves) were studied. The amount of the proteins and the enzymes of intercellular space was less than 3 % of the total amount of proteins and the enzymes found in homogenate of healthy leaves. The TMV infection did not significantly change this observation. The great increase in the activities of the enzymes was observed in homogenates of the infected leaves, especially of the enzymes involved in biosynthesis of precursors needed for virus multiplication (G6P DH, RNase, PME, PDE). This is in contrast with the activities of the enzymes of ICF, which were only partly increased. The ICF proteins of infected plants were separated by means of ion exchange chromatography on DEAE cellulose. The isozymes of peroxidase, polyphenoloxidase, PME and PDE were identified. Using discontinuous nondenaturating polyacrylamide gel electrophoresis of DEAE cellulose fractions, the detection of isozymes of peroxidases and PR-proteins was performed. By means of SDS-PAGE the molecular masses of PR-proteins were identified: 15 – 16 kDa (group 1), 27 – 28 kDa (group 3: chitinases) and 36 – 40 kDa (group 2a: -1,3-glucanases).     

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)