Cross-reaction of chalcone synthase and stilbene synthase overexpressed in Escherichia coli

Chalcone synthase (CHS) and stilbene synthase (STS) are related plant polyketide synthases belonging to the CHS superfamily. CHS and STS catalyze common condensation reactions of p-coumaroyl-CoA and three C₂-units from malonyl-CoA but different cyclization reactions to produce naringenin chalcone and resveratrol, respectively. Using purified Pueraria lobata CHS and Arachis hypogaea STS overexpressed in Escherichia coli, bisnoryangonin (BNY, the derailed lactone after two condensations) and p-coumaroyltriacetic acid lactone (the derailed lactone after three condensations) were detected from the reaction products. More importantly, we found a cross-reaction between CHS and STS, i.e. resveratrol production by CHS (2.7–4.2% of naringenin) and naringenin production by STS (1.4–2.3% of resveratrol), possibly due to the conformational flexibility of their active sites.     

A chalcone synthase/stilbene synthase DNA probe for conifers

A probe for chalcone synthase (CHS) was generated by PCR using chalcone synthase conserved sequences. The cloned PCR product has high similarity to both chalcone synthase and stilbene synthase sequences. The probe was used to examine the organization of chalcone synthase and stilbene synthase genes in Abies procera, Pinus lambertiana, P. monticola, Picea glauca, P. sitchensis, Pseudostuga menziesii, Taxus brevifolia, and Thuja plicata. A large number of hybridizing bands were found in all species except T. plicata which did not cross hybridize. The hybridization patterns are highly polymorphic between the species and are also polymorphic within several of them.     

Structural organization and differential expression of three stilbene synthase genes located on a 13 kb grapevine DNA fragment

A 13 kb DNA fragment was isolated from a grapevine (Vitis var. Optima) genomic library by hybridizing with elicitor-induced stilbene synthase cDNA as a probe. After fragmentation with Eco RI, subcloning and sequencing, two full-size stilbene synthase genes (Vst1 and Vst2) and the 3 end of a third stilbene synthase gene (Vst3) were located within the 13 kb fragment. Vst1 and Vst2, differing only slightly in the coding region, are distinguished in the intron size and in the structure of the promoter region. The 5 flanking region of gene Vst1 contains a TATAA box at nucleotide –48. The substantial structural differences found for the promoters of the two genes are paralleled by a striking difference in the expression of the two genes in elicitor-treated cells. Moreover, the accumulation upon elicitation of six different stilbene synthase mRNAs was studied and found to differ by two orders of magnitude.     

Oligogalacturonide signal transduction,induction of defense-related responses and protection of grapevine against<Emphasis Type="Italic"> Botrytis cinerea</Emphasis>

Grapevine (Vitis vinifera L.) is vulnerable to a variety of pathogenic fungi, among them Botrytis cinerea, the causal agent of grey mould, is responsible for worldwide yield losses that would be even more important without a successful control that relies mainly on fungicides. In the present work we investigated an alternative way of using oligogalacturonides (OGA) to induce defense responses in grapevine and protection against B. cinerea. Kinetic experiments with grapevine cells showed that OGA induced a rapid and transient generation of H₂O₂, followed by differential expression of nine defense-related genes and stimulation of chitinase and -1,3-glucanase activities. Inhibition of OGA-induced oxidative burst by diphenylene iodonium (DPI), an inhibitor of NADPH oxidase, lowered induction levels of six genes and chitinase activity. Interestingly, the induction of three other genes and -1,3-glucanase activity were inhibited by K252a, a protein kinase inhibitor, but not by DPI. Treatment of grapevine leaves with OGA also reduced infection by B. cinerea by about 55–65%. Accordingly, DPI or K252a with or without OGA increased the susceptibility of grapevine leaves to B. cinerea. We suggest that treatment of grapevine with OGA elicits different signalling pathways, which might act in tandem with the oxidative burst to increase grapevine defense responses required for protection against B. cinerea.Abbreviations AOS Active oxygen species - Chit Chitinase - DPI Diphenylene iodonium - -Glu -1,3-Glucanase - GST Glutathione-S-transferase - MAP Mitogen-activated protein - OGA Oligogalacturonides - PAL Phenylalanine ammonia-lyase - PR Pathogenesis-related - PGIP Polygalacturonase inhibiting protein - PIN Serine-proteinase inhibitor - STS Stilbene synthase     

<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated genetic transformation of grapevine (<Emphasis Type="Italic">Vitis vinifera</Emphasis> L.) with a novel stilbene synthase gene from Chinese wild <Emphasis Type="Italic">Vitis pseudoreticulata</Emphasis>

A novel stilbene synthase gene (STS), cloned from Chinese wild Vitis pseudoreticulata (W. T. Wang) and responsible for synthesis of the phytoalexin resveratrol in grapevine, was successfully transferred into V. vinifera L. cv. Thompson Seedless via Agrobacterium tumefaciens-mediated transformation. Using transformation procedures developed in the present study, 72% GFP-positive germinated embryos were produced with about 38% of transformed embryos regenerated into normal plantlets. Integration of the STS gene into the transgenic plants was verified by PCR and Southern blot analysis. Expression of the STS gene was detected by high performance liquid chromatography (HPLC), which showed that the resveratrol concentration in the transgenic plants was 5.5 times higher than that in non-transformed control plants. Chaohong Fan and Ni Pu contributed equally to this work.     

Transfer of a grapevine stilbene synthase gene to rice (Oryza sativa L.)

A gene derived from grapevine (Vitis vinifera) coding for stilbene synthase has been transferred into protoplasts of the commercially important japonica rice cultivar Nipponbare using PEG-mediated direct gene transfer. Transgenic plants were regenerated from calli selected on kanamycin. Southern blot analysis of genomic DNA isolated from regenerants and progeny plants demonstrated that the stilbene synthase gene is stably integrated in the genome of transgenic rice plants and inherited in the offspring. The transient formation of stilbene-synthase-specific mRNA shortly after inoculation with the fungus of the rice blast Pyricularia oryzae has demonstrated that the grapevine stilbene synthase promoter is also active in monocotyledonous plants. Preliminary results indicate an enhanced resistance of transgenic rice to P. oryzae. Received: 1 July 1996 / Revision received: 5 November 1996 / Accepted: 30 November 1996     

Transformation of apple (Malus domestica Borkh.) with the stilbene synthase gene from grapevine (Vitis vinifera L.) and a PGIP gene from kiwi (Actinidia deliciosa)

The objective of the present research was to introduce genes with antifungal potential into the commercially important apple cvs. Elstar and Holsteiner Cox in order to establish resistance against fungal diseases. The gene encoding the stilbene synthase (Vst1) from Vitis vinifera L., responsible for the synthesis of the phytoalexin resveratrol in grapevine, and the gene for a polygalacturonase-inhibiting protein (PGIP) from kiwi (Actinidia deliciosa) were transferred into Holsteiner Cox and Elstar via Agrobacterium tumefaciens-mediated transformation. A total of nine transgenic Holsteiner Cox clones and one transgenic E clone carrying the stilbene-synthase gene as well as three transgenic Holsteiner Cox lines harbouring the polygalacturonase-inhibiting protein from Kiwi were identified via polymerase chain reaction and Southern blot analysis. High performance liquid chromatography analysis revealed the accumulation of a resveratrol-derivate, a glycoside, in transgenic Vst1 plants.Abbreviations BAP 6-Benzylaminopurine - E Elstar - H Holsteiner Cox - HPLC High performance liquid chromatography - IBA Indole-3-butyric acid - NAA -Naphthaleneacetic acid - TDZ Thidiazuron - YEP Yeast extract broth Communicated by H. Lörz     

The grapevine polygalacturonase-inhibiting protein (VvPGIP1) reduces Botrytis cinerea susceptibility in transgenic tobacco and differentially inhibits fungal polygalacturonases

Polygalacturonase-inhibiting proteins (PGIPs) selectively inhibit polygalacturonases (PGs) secreted by invading plant pathogenic fungi. PGIPs display differential inhibition towards PGs from different fungi, also towards different isoforms of PGs originating from a specific pathogen. Recently, a PGIP-encoding gene from Vitis vinifera (Vvpgip1) was isolated and characterised. PGIP purified from grapevine was shown to inhibit crude polygalacturonase extracts from Botrytis cinerea, but this inhibitory activity has not yet been linked conclusively to the activity of the Vvpgip1 gene product. Here we use a transgenic over-expression approach to show that the PGIP encoded by the Vvpgip1 gene is active against PGs of B. cinerea and that over-expression of this gene in transgenic tobacco confers a reduced susceptibility to infection by this pathogen. A calculated reduction in disease susceptibility of 47–69% was observed for a homogeneous group of transgenic lines that was statistically clearly separated from untransformed control plants following infection with Botrytis over a 15-day-period. VvPGIP1 was subsequently purified from transgenic tobacco and used to study the specific inhibition profile of individual PGs from Botrytis and Aspergillus. The heterologously expressed and purified VvPGIP1 selectively inhibited PGs from both A. niger and B.␣cinerea, including BcPG1, a PG from B. cinerea that has previously been shown to be essential for virulence and symptom development. Altogether our data confirm the antifungal nature of the VvPGIP1, and the in vitro inhibition data suggest at least in part, that the VvPGIP1 contributed to the observed reduction in disease symptoms by inhibiting the macerating action of certain Botrytis PGs in planta. The ability to correlate inhibition profiles to individual PGs provides a more comprehensive analysis of PGIPs as antifungal genes with biotechnological potential, and adds to our understanding of the importance of PGIP:PG interactions during disease and symptom development in plants.Dirk A. Joubert and Ana R. Slaughter contributed equally to this work.     

Anthranilate synthase forms in plants and cultured cells of Nicotiana tabacum L.

Tobacco (N. tabacum cv. Xanthi) cell lines contained two forms of anthranilate synthase (AS; EC 4.1.3.27) which could be partially separated by gel-filtration chromatography. One form was resistant to feedback inihibition by 10 M tryptophan (trp) while the other form was almost completely inhibited by trp at the same concentration. Cell lines selected as resistant to 5-methyltryptophan (5MT) had more of the trp-resistant AS form. Only the trp-sensitive form was detected in plants regenerated from both normal and 5MT-resistant cell lines. Overexpression of the trp-resistant form in 5MT-resistant tobacco cells disappeared during plant regeneration but reappeared when callus was initiated from the leaves of these plants. The trp-sensitive form was localized in the particulate fraction and the trp-resistant form in the cytosol of tobacco cultured cell protoplasts. The trp-resistant form of AS from tobacco had an estimated MW of 200 000, determined by Sephacryl S-200 chromatography, compared to an estimated MW of 150 000 for the trp-sensitive form. The estimated molecular weights of AS from carrot and corn were 160 000 and 150 000, respectively. Analysis of AS activity from the diploid Nicotiana species Nicotiana otophora (chromosome number 2n=24) by high-performance liquid chromatography showed two activity peaks identical in elution time and trp inhibition characteristics to the activity from N. tabacum (chromosome No. 48). Thus the two enzyme forms found in tobacco did not appear to have originated individually from the progenitor species genomes which combined to make up the tobacco genome.Abbreviations AS anthranilate synthase - 2,4-D 2,4-dichlorophenoxyacetic acid - HPLC high-performance liquid chromatography - 5MT D1-5-methyltryptophan - trp L-tryptophan     

Control of gene expression during induction of cultured peanut cells: mRNA levels,protein synthesis and enzyme activity of stilbene synthase

Stilbene synthase is an inducible enzyme occurring in a small number of plants. The enzyme is amenable to analysis and biochemical studies only after the cells are subjected to induction. Cell suspension cultures of peanut react very selectively if elicited with biotic inducers. Just as intact peanut plants produce stilbene phytoalexins when attacked by fungi so also do sterile cultured cells when treated with sterilized insoluble fungal cell walls. Both systems react by synthesizing stilbene synthase. The time courses of increase in enzyme activity, protein synthesis and mRNA activity were studied, and their relation to other activities of the cells was elaborated. The results show that, after applying the fungal elicitor, the system responds very quickly and selectively: within 2 hours the synthesis rate of stilbene synthase protein is increased more than 30-fold, the increase being detectable 40 min after induction. The first increase in translatable mRNA for stilbene synthase can be seen 20 min after application of the stimulus. Stilbene synthase synthesized in vivo was compared to stilbene synthase prepared by translation in vitro. There was no difference in size, and limited proteolysis did not indicate significant differences in the peptide structure of the primary translation product and the active enzyme.     

Prokaryotic expression, polyclonal antibody preparation of the stilbene synthase gene from grape berry and its different expression in fruit development and under heat acclimation

Stilbene synthase (STS, EC 2.3.1.95) leads to the production of resveratrol compounds, which are major components of the phytoalexin response against fungal pathogens of the plant and are highly bioactive substances of pharmaceutical interest. STS expression and regulation are important. Temperature is one of the main external factors affecting phytoalexin accumulation in plant tissues, the effect of temperature on resveratrol synthesis and stilbene synthase expression in grape berries has not been reported before. Here we cloned the full-length sts cDNA with 1179 bp from grape berry via PCR, and then introduced into an expressed plasmid pET-30a(+) vector at the EcoRI and XhoI restriction sites. With the isopropyl-β-d-thiogalactoside (IPTG) induced, the pET-sts was highly expressed in Escherichia coli BL21 (DE3) pLysS cells. A fusion protein with the His–Tag was purified by Ni-NTA His · Bind Resin and then used as the antigen to immunize a New Zealand rabbit. Furthermore, the antiserum was precipitated by 50% saturated ammonium sulfate and DEAE-Sephadex A-50 chromatography to obtain the immunoglobulin G (IgG) fraction. These results provide a substantial basis for the further studies of the STS in grape berry as well as in other species of plants. The sts expression in fruit development and in response to heat acclimation was then assayed. The results indicated STS was regulated in fruits depending on the developmental stage and significantly accumulation of STS mRNA and synthesis of new STS protein during the early of heat acclimation, this work offers an important basis for further investigating the mechanism of post-harvest fruit adaptation to environmental stresses.     

Development of a transient expression system in grapevine via agro-infiltration

Transient expression of genes using Agrobacterium is a powerful tool for the analysis of gene function in plants. We have developed this method for the analysis of genes involved in disease resistance in grapevine leaves. Our research showed that the quality of the plant material, the plant genotype used for agro-infiltration and the presence of additional virulence factors (carried on plasmid pCH32) in the Agrobacterium strain are all important factors for success of the procedure. After optimising these factors, we consistently achieve sufficient acceptable levels of expression of the markers beta-glucuronidase (GUS) and green fluorescent protein (GFP) using vacuum infiltration of grapevine leaves from plants grown in vitro. We used this procedure to investigate the proposed role of stilbenes in defense against grapevine downy mildew (Plasmopara viticola) by transiently overexpressing stilbene synthase in grapevine leaves, before infection with P. viticola. We found that agro-infiltration itself induces the synthesis of stilbenes in grapevine leaves, thus preventing us to test the effect of the overexpression of stilbene synthase in defense. However, our results revealed that agro-infiltration before P. viticola inoculation had an effect on the development of the infection. Further research is required to show whether stilbenes or some other factor are the causal agent restricting pathogen development. The method described here provides and excellent tool to exploit at the many grapevine genomic resources now available, and will contribute to a better understanding of many areas of grapevine biology.     

Polymorphisms in grapevine DNA detected by the RAPD PCR technique

A sensitivie, reproducible technique is described for detecting polymorphisms between the nuclear DNA of grapevine isolates using the RAPD PCR technique. Unique fingerprints of a number of cultivars were readily distinguished by using either single primers or mixtures of two primers. The method will be used to provide a databank of fingerprints for the rapid identification of grapevine cultivars, and to develop phylogenetic relationships. It will also be extended and modified in an attempt to detect polymorphisms between DNAs of clonal selections of individual cultivars.     

Cryopreservation of in vitro-grown shoot tips of grapevine by encapsulation-dehydration

In vitro-grown shoot tips of the LN33 hybrid (Vitis L.) and cv. Superior (Vitis vinifera L.) were successfully cryopreserved by encapsulation-dehydration. Encapsulated shoot tips were precultured stepwise on half-strength MS medium supplemented with increasing sucrose concentrations of 0.25, 0.5, 0.75 and 1.0 M for 4 days, with one day for each step. Following preculture, encapsulated shoot tips were dehydrated prior to direct immersion in liquid nitrogen for 1 h. After thawing, cryopreserved shoot tips were post-cultured on a post-culture medium for survival. An optimal survival of cryopreserved shoot tips was achieved when encapsulated shoot tips were dehydrated to 15.6 and 17.6% water content for the LN33 hybrid and cv. Superior, respectively. Comparison between the effects of dehydration with silica gel and by air drying on cryopreserved shoot tips, showed that survival was dependent on water content, not on dehydration method. The thawing method markedly affected survival of cryopreserved shoot tips, and thawing at 40 °C for 3 min was found best. No callus formation and fastest shoot elongation were obtained when cryopreserved shoot tips were post-cultured on the post-culture medium composed of half-strength MS supplemented with 1 mg l⁻¹ BA and 0.1 mg l⁻¹ NAA. With these optimized parameters, 60 and 40% survival of cryopreserved shoot tips were obtained for the LN33 hybrid and cv. Superior, respectively. This revised version was published online in June 2006 with corrections to the Cover Date.     

Coordinate induction by UV light of stilbene synthase,phenylalanine ammonia-lyase and cinnamate 4-hydroxylase in leaves of vitaceae

A stilbene synthase catalyzing the formation of resveratrol from 4-hydroxycinnamoyl-CoA and malonyl-CoA was found in the leaves of several Vitaceae. This stilbene synthase and two other enzymes functioning on the route from phenylalanine to stilbenes were induced concurrently upon irradiation of the leaves with UV light. With leaves of Cissus antarctica, an increase of stilbene synthase activity, more than hundred-fold, was observed with a maximum appearing 15 h after the induction with UV light.Abbreviations EDTA Na₂-ethylenediaminotetraacetate - Hepes 4-(2-Hydroxyethyl)-1-piperazineethanesulfonic acid - Mes morpholinoethanesulfonic acid     

Characterization of Plasmopara-resistance in grapevine using in vitro plants

Although the exact mechanisms by which grapevine cells operate to reduce disease incidence caused by the downy mildew fungus Plasmopara viticola are not fully elucidated, our cytological results obtained from infected in vitro-plants confirm that enhanced disease resistance is associated with an expression of distinct reactions in a chronological order. An increased production of reactive oxygen species (superoxide radicals, 4-6 hours post infection, hpi) was followed by a hypersensitive response (6-8 hpi), an increased activity of peroxidase in cells flanking the infection area and in the vascular tissue (10-12 hpi) and an increased production, accumulation or conversion of phenolic compounds (12-15 hpi). These mechanisms seem also to be present in susceptible varieties as shown after an inoculation with non-host oomycetic pathogens on the basis of peroxidase activity, but they do not become activated after P. viticola infection. The investigation of the peroxidase activity in leaves at several time points after an infection with P. viticola indicated that there is a strong correlation between the POX activity in leaves of in vitro-plants and the resistance of grapevine plants to P. viticola in the field.     

Control of the phytopathogen Botrytis cinerea using adipic acid monoethyl ester

The in vitro and in vivo antifungal activity of adipic acid monoethyl ester (AAME) on the necrotrophic pathogen Botrytis cinerea has been studied. This chemical effectively controlled this important phytopathogen, inhibited spore germination and mycelium development at non-phytotoxic concentrations. The effectiveness of AAME treatment is concentration-dependent and influenced by pH. Spore germination in the presence of AAME is stopped at a very early stage, preventing germ tube development. In addition, cytological changes such as retraction of the conidial cytoplasm in the fungus are observed. AAME was also found to act on membrane integrity, affecting permeability without exhibiting lytic activity, as described previously for other antifungal compounds. Polyamine content in the mycelium of B. cinerea was also affected in response to AAME treatment, resulting in putrescine reduction and spermine accumulation similar to a number of antifungal agents. Microscopic observation of treated conidia after inoculation on tomato leaves suggested that inhibited spores are not able to attach to and penetrate the leaf. Finally, AAME completely suppressed the grey mould disease of tomato fruits under controlled inoculation conditions, providing evidence for its efficacy in a biological context and for the potential use of this chemical as an alternative fungicide treatment.