Characteristics of Pathogenesis-Related Proteins Induced in Phaseolus vulgaris cv. Pinto Following Viral Infection

Ten acidic and eight basic pathogenesis-related (PR) proteins were induced in primary leaves of Phaseolus vulgaris cv. Pinto following infection with southern bean mosaic virus (SBMV), a virus that induces circular, brown necrotic local lesions. These PR proteins included: four, 17 kDa, serologically related, acidic proteins of unknown functions; two chitinases, one acidic (29 kDa) and one basic (32 kDa) possessing antifungal activities; and four (21 kDa, 28 kDa, 29 kDa, 36 kDa) serologically related, acidic glucanases. The production of PR proteins was minimal during the period of active SBMV multiplication; greatest increase of PR proteins occurred after SBMV had reached a maximum level. Several of these PR proteins, including the 29 kDa acidic chitinase and two acidic glucanases (21 kDa and 36 kDa) accumulated in the intercellular space fluid. Similar PR proteins were synthesized in Pinto bean primary leaves infects with any of three other viruses that formed lesions of divergent phenotypes. However, the proportion of some of the PR proteins in the various lesion-types differed considerably. These results indicate that PR proteins play no active role in viral localization or inactivation and that their production is a metabolic adjustment to endogenous stress.     

Purification and serological characterization of three basic 15-kilodalton pathogenesis-related proteins from tomato

In tomato (Lycopersicon esculentum) several acidic and basic apoplastic pathogenesis-related (PR) proteins are induced upon inoculation with virulent or avirulent races of Cladosporium fulvum (Cooke) (syn. Fulvia fulva [Cooke] Cif). One of the most predominant and best characterized tomato PR proteins is P14, a basic protein that shows homology to the tobacco (Nicotiana tabacum) PR-1 protein family. To investigate whether, by analogy with these tobacco PR-1 proteins, P14 also belongs to a family of differently charged isomers, the abundantly occurring PR proteins with molecular masses around 15 kilodaltons (kD) were purified from apoplastic fluids isolated from C. fulvum-infected tomato. Three basic proteins migrating similarly to P14 on sodium dodecyl sulfate polyacrylamide gels were purified to homogeneity by gel filtration followed by high resolution liquid chromatography. Two proteins (15.5 kD, isoelectric point [pl] 10.9 and 10.7 appeared to be serologically related to each other and to the tobacco PR-1 proteins. A third protein (15 kD, pl 10.4) was not serologically related to any other tomato PR protein but was found to be related to PR-R from tobacco.     

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.     

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.     

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.     

Colonization of Transgenic Tobacco Constitutively Expressing Pathogenesis-Related Proteins by the Vesicular-Arbuscular Mycorrhizal Fungus Glomus mosseae

We studied the effect of constitutive expression of pathogenesis-related proteins (PRs) in tobacco plants on vesicular-arbuscular mycorrhiza. Tobacco lines genetically transformed to express various PRs constitutively under the control of the cauliflower mosaic virus 35S promoter of tobacco were examined. Immunoblot analysis and activity measurements demonstrated high levels of expression of the PRs in the root systems of the plants. Constitutive expression of the following acidic isoforms of tobacco PRs did not affect the time course or the final level of colonization by the vesicular-arbuscular mycorrhizal fungus Glomus mosseae: PR-1a, PR-3 (=PR-Q), PR-Q(prm1), PR-4, and PR-5. Similarly, constitutive expression of an acidic cucumber chitinase, of a basic tobacco chitinase with and without its vacuolar targeting peptide, of a basic (beta)-1,3-glucanase, and of combinations of PR-Q and PR-Q(prm1) or basic chitinase and basic (beta)-1,3-glucanase did not affect colonization by the mycorrhizal fungus. A delay of colonization by G. mosseae was observed in tobacco plants constitutively expressing the acidic isoform of tobacco PR-2, a protein with (beta)-1,3-glucanase activity.     

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.     

Antifungal activity of chitin-binding PR-4 type proteins from barley grain and stressed leaf.

Antifungal activity in vitro has been associated with barley leaf and grain proteins which are homologous with pathogenesis related proteins of type 4 (PR-4) from tobacco and tomato and with C terminal domains of potato win and Hevea hevein precursor proteins. One protein (pI approximately 9.3, M(r) approximately 13.7 kDa) from barley grain and two very similar proteins from leaves infected with Erysiphe graminis were isolated by chitin affinity chromatography, but none of the proteins showed chitinase activity in vitro. The leaf proteins were increased several fold in response to either Erysiphe infection or NiCl2 infiltration and accumulated extracellularly. The three barley proteins were found to inhibit growth of Trichoderma harzianum in microtiter plate assays using approximately 10 micrograms/ml concentrations and in lower concentrations in a synergistic way when mixed either with barley chitinase C (a PR-3 type protein) or with barley protein R (a PR-5 type protein). Structurally similar proteins were detected in wheat, rye and oats grain extracts.     

Pathogenesis-related protein 4 is structurally homologous to the carboxy-terminal domains of hevein, Win-1 and Win-2

Summary The extracellular, acidic pathogenesis-related protein, PR-4, was purified to homogeneity from leaves of Nicotiana tabacum infected with tobacco mosaic virus (TMV) and characterized by partial amino acid sequencing. Complementary DNA clones encoding PR-4 were isolated using an oligonucleotide probe based on the sequence of one of the peptides. The deduced PR-4 protein sequence was found to be related to a family of proteins including hevein and Win-1, which have an amino-terminal lectin domain and a carboxy-terminal domain of unknown function. PR-4 is homologous to the carboxy-terminus of these proteins but does not contain the lectin domain. Thus, the organization of the PR-4 family of proteins is similar to that of the plant chitinase family, in that both contain structural subclasses characterized by the presence or absence of an amino-terminal lectin domain. This observation is consistent with the proposal that the DNA encoding the lectin domain may be capable of transposing to form new genes encoding proteins of more complex, multi-domain structure. The expression of PR-4 mRNA was found to increase dramatically in response to TMV infection and the time course of RNA accumulation was similar to that of other PR proteins.     

Benzothiadiazole as an Inducer of β-1,3-Glucanase and Chitinase Isozymes in Sugar Beet

The effect of benzothiadiazole (BTH) on protein synthesis was studied in sugar beet plants. Extracellular proteins induced by 0.025 % BTH were examined and their pattern was compared with that induced by sodium salicylate, chitosan, paraquat, AgNO₃, and by tobacco necrosis virus. BTH induced synthesis of at least 9 acidic and 6 basic proteins; three of them appeared as acidic chitinase isozymes, three as acidic β-1,3-glucanase isozymes, three as basic chitinase isozymes, and one as a basic β-1,3-glucanase isozyme. One of the basic chitinase isozymes was found also in control plants. The most of the newly formed proteins was also induced by the other inducers under study regardless of the necrotic or symptomless reaction of plants. The benzothiadiazole proved to be an efficient inducer of proteins in sugar beet. This revised version was published online in July 2006 with corrections to the Cover Date.     

Proteomic analysis of pathogenesis-related proteins (PRs) induced by compatible and incompatible interactions of pepper mild mottle virus (PMMoV) in Capsicum chinense L3 plants

Resistance conferred by the L³ gene is active against most ofthe tobamoviruses, including the Spanish strain (PMMoV-S), aP_1,2 pathotype, but not against certain strains of pepper mildmottle virus (PMMoV), termed P_1,2,3 pathotype, such as the Italianstrain (PMMoV-I). Both viruses are nearly identical at theirnucleotide sequence level (98%) and were used to challenge Capsicumchinense PI159236 plants harbouring the L³ gene in order tocarry out a comparative proteomic analysis of PR proteins inducedin this host in response to infection by either PMMoV-S or PMMoV-I.PMMoV-S induces a hypersensitive reaction (HR) in C. chinensePI159236 plant leaves with the formation of necrotic local lesionsand restriction of the virus at the primary infection sites.In this paper, C. chinense PR protein isoforms belonging tothe PR-1, β-1,3-glucanases (PR-2), chitinases (PR-3), osmotin-likeprotein (PR-5), peroxidases (PR-9), germin-like protein (PR-16),and PRp27 (PR-17) have been identified. Three of these PR proteinisoforms were specifically induced during PMMoV-S-activationof C. chinense L³ gene-mediated resistance: an acidic β-1,3-glucanaseisoform (PR-2) (M_r 44.6; pI 5.1), an osmotin-like protein (PR-5)(M_r 26.8; pI 7.5), and a basic PR-1 protein isoform (M_r 18;pI 9.4–10.0). In addition, evidence is presented for adifferential accumulation of C. chinense PR proteins and mRNAsin the compatible (PMMoV-I)–C. chinense and incompatible(PMMoV-S)–C. chinense interactions for proteins belongingto all PR proteins detected. Except for an acidic chitinase(PR-3) (M_r 30.2; pI 5.0), an earlier and higher accumulationof PR proteins and mRNAs was detected in plants associated withHR induction. Furthermore, the accumulation rates of PR proteinsand mRNA did not correlate with maximal accumulation levelsof viral RNA, thus indicating that PR protein expression mayreflect the physiological status of the plant. Key words: Capsicum chinense, compatible interaction, incompatible interaction, HR-induction, PMMoV, PR proteins Received 5 December 2007; Revised 21 January 2008 Accepted 22 January 2008     

Identification and kinetics of accumulation of proteins induced by ethylene in bean abscission zones

A two-dimensional gel electrophoresis system that combines a cationic polyacrylamide gel electrophoresis at pH near neutrality with sodium dodecyl sulfate-polyacrylamide gel electrophoresis was used to analyze the spectrum of basic polypeptides that accumulate in bean (Phaseolus vulgaris) abscission zones after treatment with ethylene. Results showed that, as abscission progressed, at least seven basic proteins accumulated in the abscission zone prior to the accumulation of 9.5 cellulase. Six of the seven proteins correspond to pathogenesis-related (PR) proteins. Among them, two isoforms of β-1,3-glucanase and multiple isoforms of chitinase were identified. A 22 kilodalton polypeptide that accumulated to high levels was identified as a thaumatin-like protein by analysis of its N-terminal sequence (up to 20 amino acids) and its serological relationship with heterologous thaumatin antibodies. A 15 kilodalton polypeptide serologically related to PR P1 (p14) from tomato was identified as bean PR P1 (p14)-like protein. The kinetics of accumulation of glucanases, chitinases, thaumatin-like and PR P1 (p14)-like proteins during ethylene treatment were similar and they showed that PR proteins accumulated in abscission zones prior to the increase in 9.5 cellulase. Addition of indoleacetic acid, a potent inhibitor of abscission, reduced the accumulation of these proteins to a similar extent (60%). The synchronized accumulation of this set of PR proteins, early in the abscission process, may play a role in induced resistance to possible fungal attack after a plant part is shed. The seventh protein does not correspond to any previously characterized PR protein. This new 45 kilodalton polypeptide accumulated in abscission zones on exposure to ethylene concomitantly with the increase in 9.5 cellulase. Its N-terminal sequence (up to 15 amino acids) showed some homology with the amino terminal sequence of chitinase. Polyclonal antibodies against chitinase recognized the 45 kilodalton polypeptide, but polyclonal antibodies against the 45 kilodalton protein recognized chitinase weakly. When abscission was inhibited by addition of indoleacetic acid, the accumulation of the 45 kilodalton protein was strongly inhibited (80%). This result suggests that the 45 kilodalton polypeptide may play a more direct role in abscission.     

Tobacco genes encoding acidic and basic isoforms of pathogenesis-related proteins display different expression patterns

The induction by cytokinin stress and ethylene of nine different tobacco mosaic virus-inducible mRNA classes (termed A-I) encoding pathogenesis-related (PR) proteins was studied. The induced mRNA levels were compared to basal levels in healthy tobacco plants grown in tissue culture and in a greenhouse. Cytokinin stress and ethylene were found to induce different subsets of the mRNAs, indicating that ethylene is not the primary inducing signal in cytokinin-stressed shoots. mRNAs F, H and G encoding the basic hydrolytic enzymes chitinase, -1,3-glucanase and a basic equivalent of PR-1, respectively, were found to be expressed at high levels in roots of healthy plants. mRNAs D, I and B encoding the acidic equivalents of the proteins proved to be present at low levels in healthy plants. These results indicate that genes encoding basic and acidic isoforms of pathogenesis-related proteins are differentially regulated.     

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.     

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 Pathogenesis-Related Proteins of Phsseolus Bean

Seven acidic low molecular weight pathogenesis-related (PR) proteins from tobacco necrosis virus-infected Phaseolus bean leaves were isolated, purified and partially characterized. The proteins could ba classified following the nomenclature of Antoniw et al. (1980) for tobacco PR proteins. Three groups are thus proposed, corresponding to molecular sizes of 16, 27 and 31 kD, very close to the values of three groups proposed for tobacco. Tentative correspondences between the PR proteins here described and those previously reported by other authors are also proposed.     

Pathogenesis-related proteins are developmentally regulated in tobacco flowers

The accumulation of pathogenesis-related proteins (PR) in tobacco leaves has been casually related to pathogen and specific physiological stresses. The known enzymatic function of some of these proteins is potentially antimicrobial. By using antibodies specific to three classes of pathogenesis-related proteins, we examined tobacco plants during their normal growth. The pathogenesis-related proteins accumulated during the normal development of the tobacco flower. The PR-1 class of proteins (biological function unknown) is located in sepal tissue. PR-P, Q polypeptides are endochitinases and are present in pedicels, sepals, anthers, and ovaries. A glycoprotein serologically related to the PR-2,N,O class is a (1,3)-beta-glucanase and is present in pistils. Differential appearance during flower development, in situ localization, and post-translational processing of floral pathogenesis-related proteins point to a hitherto unsuspected function these classes of pathogenesis-related proteins play in the normal process of flowering and reproductive physiology.     

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.     

Silencing of acidic pathogenesis-related PR-1 genes increases extracellular beta-(1->3)-glucanase activity at the onset of tobacco defence reactions

The class 1 pathogenesis-related (PR) proteins are thought to be involved in plant defence responses, but their molecular functions are unknown. The function of PR-1 was investigated in tobacco by generating stable PR-1a-silenced lines in which other acidic PR-1 genes (PR-1b and PR-1c) were silenced. Plants lacking extracellular PR-1s were more susceptible than wild-type plants to the oomycete Phytophthora parasitica but displayed unaffected systemic acquired resistance and developmental resistance to this pathogen. Treatment with salicylic acid up-regulates the PR-1g gene, encoding a basic protein of the PR-1 family, in PR-1-deficient tobacco, indicating that PR-1 expression may repress that of PR-1g. This shows that acidic PR-1s are dispensable for expression of salicylic acid-dependent acquired resistances against P. parasitica and may reveal a functional overlap in tobacco defence or a functional redundancy in the PR-1 gene family. The data also show that there is a specific increase in apoplastic beta-(1-->3)-glucanase activity and a decrease in beta-(1-->3)-glucan deposition in PR-1-silenced lines following activation of defence reactions. Complementation of the silencing by apoplastic treatment with a recombinant PR-1a protein largely restores the wild-type beta-(1-->3)-glucanase activity and callose phenotype. Taken together with the immunolocalization of PR-1a to sites of beta-(1-->3)-glucan deposition in wild-type plants, these results are indicative of a function for PR-1a in regulation of enzymatic activity of extracellular beta-(1-->3)-glucanases.     

Isolation of a complementary DNA encoding the bean PR4 chitinase: an acidic enzyme with an amino-terminus cysteine-rich domain

The amino acid sequences of peptides generated by trypsin and chymotrypsin digestions of the acidic PR4 chitinase from bean were determined. Oligonucleotide primers derived from this sequence were used to synthesize a PR4 chitinase-specific probe by PCR-amplification. This probe allowed the isolation of cDNA clones encoding PR4 chitinase that have been sequenced. This acidic and extracellular chitinase shows some homology to the basic isoform from the same plant, and differs from other known acidic chitinases by the presence of an amino-terminal cysteine-rich domain. Southern blot analysis of bean genomic DNA revealed that PR4 chitinase is encoded by a single gene.