A fungal chitinase gene fromRhizopus oligosporus confers antifungal activity to transgenic tobacco

We have studied whether a chitinase involved in cell autolysis of a filamentous fungus,Rhizopus oligosporus, can operate as an antifungal defense system in tobacco. Thechi1 gene was introduced into tobacco by theAgrobacterium tumefaciens leaf disc system. Among 22 transgenic tobacco plants, 2 were selected and their individual homozygous progeny, Tch1-1 and Tch2-1, were studied. Chitinase activity in the extracts of young leaves from Tch1-1 or Tch2-1, in which thechi1 gene product was detected by Western blot analysis, was three- to four-fold higher than that from the control plants. A fungal infection assay on the leaves infected with the discomycete pathogensSclerotinia sclerotiorum andBotrytis cinerea revealed that the symptoms observed with these two were remarkably suppressed as compared with the control leaves.Abbreviations CaMV Cauliflower mosaic virus - Km ^r kanamycin resistant - Km ^s kanamycin sensitive - MS Murashige and Skoog - PCR polymerase chain reaction - PDA potato dextrose agar - PR pathogenesis-related     

Non-recombinant background in gene targeting: illegitimate recombination between a hpt gene and a defective 5′ deleted nptII gene can restore a Kmr phenotype in tobacco

Previously we have demonstrated gene targeting in plants after Agrobacterium-mediated transformation. In these initial experiments a transgenic tobacco line 104 containing a T-DNA insertion with a defective neomycin phosphotransferase (nptII) gene was transformed with a repair construct containing an otherwise defective nptII gene. Homologous recombination between the chromosomally located target and the incoming complementary defective nptII construct generated an intact nptII gene and led to a kanamycin-resistant (Km^r) phenotype. The gene targeting frequency was 1×10^–5. In order to compare direct gene transfer and Agrobacterium-mediated transformation with respect to gene targeting we transformed the same transgenic tobacco line 104 via electroporation. A total of 1.35×10⁸ protoplasts were transformed with the repair construct. Out of nearly 221 000 transformed cells 477 Km^r calli were selected. Screening the Km^r calli via PCR for recombination events revealed that in none of these calli gene targeting had occurred. To establish the origin of the high number of Km^r calli in which gene targeting had not occurred we analysed plants regenerated from 24 Km^r calli via PCR and sequence analysis. This revealed that in 21 out of 24 plants analysed the 5-deleted nptII gene was fused to the hygromycin phosphotransferase (hpt) gene that was also present on the repair construct. Sequence analysis of 7 hpt/nptII gene fusions showed that they all contained a continuous open reading frame. The absence of significant homology at the fusion site indicated that fusion occurred via a process of illegitimate recombination. Therefore, illegitimate recombination between an introduced defective gene and another gene present on the repair construct or the chromosome has to be taken into account as a standard byproduct in gene targeting experiments.     

The symptom difference induced by <Emphasis Type="Italic">Tobacco mosaic virus</Emphasis> and <Emphasis Type="Italic">Tomato mosaic virus</Emphasis> in tobacco plants containing the <Emphasis Type="Italic">N</Emphasis> gene is determined by movement protein gene

Tobacco mosaic virus (TMV) and Tomato mosaic virus (ToMV) are two closely related viruses in the genus Tobamovirus, but they induce obviously different sizes of necrotic lesions in tobacco plants containing the N gene. Comparison of the symptoms produced by TMV, ToMV and a chimaeric virus (T/OMP), in which the TMV movement protein (MP) gene was replaced by the ToMV MP gene, showed T/OMP caused necrotic lesions that were similar in size to those of ToMV in tobacco plants containing the N gene. The coat protein and MP of the three viruses accumulated in planta with similar levels, and the replication level of TMV and T/OMP in protoplasts also had no difference. Comparison of the activities of defense-related enzymes (PAL, POD and PPO) induced by the three viruses also showed that the variability of enzyme activity induced by T/OMP was similar to that induced by TMV, but different from that induced by ToMV. The results indicate that the size difference of necrotic lesions induced by TMV and ToMV in tobacco plants containing the N gene results from the functional difference of their MP genes.     

Analysis ofcis-regulatory elements involved in induction of a tobacco PR-5 gene by virus infection

cis-Regulatory elements involved in tobacco mosaic virus (TMV)-inducible expression were indentified in a tobacco PR-5 gene, encoding an acidic thaumatin-like protein. By fusing upstream sequences of the PR-5 gene to the GUS reporter gene and analysing transgenic plants containing these fusions for local and systemic induction of GUS activity by TMV, it was found that sequences between-1364 and-718 are involved in TMV induction of PR-5 gene expression.     

Identification of genetic determinants of tomato brown rugose fruit virus that enable infection of plants harbouring the Tm-22 resistance gene

Tomato cultivars containing the Tm-2² resistance gene have been widely known to resist tobacco mosaic virus (TMV) and tomato mosaic virus. Tomato brown rugose fruit virus (ToBRFV), a new emerging tobamovirus, can infect tomato plants carrying the Tm-2² gene. However, the virulence determinant of ToBRFV that overcomes the resistance conferred by the Tm-2² gene remains unclear. In this study, we substituted the movement protein (MP) encoding sequences between ToBRFV and TMV infectious clones and conducted infectivity assays. The results showed that MP was the virulence determinant for ToBRFV to infect Tm-2² transgenic Nicotiana benthamiana plants and Tm-2²-carrying tomato plants. A TMV MP chimera with amino acid residues 60–186 of ToBRFV MP failed to induce hypersensitive cell death in the leaves of Tm-2² transgenic N. benthamiana plants. Chimeric TMV containing residues 60–186 of ToBRFV MP could, but chimeric ToBRFV containing 61–187 residues of TMV MP failed to infect Tm-2² transgenic N. benthamiana plants, indicating that 60–186 residues of MP were important for ToBRFV to overcome Tm-2² gene-mediated resistance. Further analysis showed that six amino acid residues, H⁶⁷, N¹²⁵, K¹²⁹, A¹³⁴, I¹⁴⁷, and I¹⁶⁸ of ToBRFV MP, were critical in overcoming Tm-2²-mediated resistance in transgenic N. benthamiana plants and tomato plants. These results increase our understanding of the mechanism by which ToBRFV overcomes Tm-2²-mediated resistance.     

Localization by in situ hybridization of a low copy chimaeric resistance gene introduced into plants by direct gene transfer

Summary An in situ hybridization method was developed for detecting single or low copy number genes in metaphase chromosomes of plants. Using as a probe ³H-labelled plasmid pABDI, which confers kanamycin resistance (Km^r) to transformed cells. DNA introduced into the plant genome by direct gene transfer was detected with a high efficiency: about 60% to 80% of interphase and metaphase plates showed a strong signal. The insertion site of the Km^r gene in two independent transformants was localised on different homologous chromosome pairs. This result independently confirmed previous genetic data which had indicated that transformed DNA was integrated into plant chromosomes in single blocks.     

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

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

Generation of Mercury-Hyperaccumulating Plants through Transgenic Expression of the Bacterial Mercury Membrane Transport Protein MerC

The merC gene from Acidithiobacillus ferrooxidans functions as a mercury uptake pump. MerC protein localizes in the cytoplasmic membrane of plant cells. When Arabidopsis thaliana and tobacco plants were transformed with the merC gene under the control of the Cauliflower mosaic virus 35S promoter, the resulting overexpression of merC rendered the host plants hypersensitive to Hg²⁺ and they accumulated approximately twice as much Hg²⁺ ion as the wild type plants. Thus, bacterial mercuric ion transporters such as MerC may be useful molecular tools for producing transgenic plants that hyperaccumulate Hg²⁺ ion.     

The Effect of Arachidonic Acid and Viral Infection on the Phytohemagglutinin Activity during the Development of Tobacco Acquired Resistance

The effects of arachidonic acid (AA) on the development of viral infection and the activity of phytohemagglutinins in Nicotiana tabacum L. plants were studied. Cv. Samsun NN was used, which displayed a genotypically determined hypersensitive response to tobacco mosaic virus (TMV) infection. When tobacco leaf disks were treated with 10^–9 to –10^–7 M AA, viral reproduction was suppressed by 90–100%. The AA concentration of 10^–8 M was optimal for the improvement of plant virus resistance. Tobacco leaves maintained virus resistance for at least two weeks. Both AA treatment and TMV inoculation were accompanied by an enhanced lectin activity, which may indicate the involvement of lectins in the development of plant defense responses. Lectin accumulation was observed in the intact plants developing systemic resistance and in the detached leaves characterized by local resistance.     

Induced expression of a chimeric gene construct in transgenic lettuce plants using tobacco pathogenesis-related protein gene promoter region

The expression of a stress- and salicylic acidinducible protein gene from tobacco, PR1a protein gene, was determined after its Introduction to lettuce (Lactuca sativa L.) plants. The 5 flanking 2.4 Kb fragment from PR1a gene was joined to the bacterial -glucuronidase (GUS) gene (PR-GUS) and introduced into lettuce cotyledons by Agrobacterium-mediated gene transfer using a binary vector containing a kanamycin-resistance gene as a selectable marker. As a control with constitutive expression, the chimeric gene consisting of CaMV 35S RNA promoter and GUS gene (35S-GUS) was used. An improved method for shoot formation directly from lettuce cotyledons was used effectively for transformation, shortening the time for regeneration. In 70% or more of kanamycin-resistant regenerated lettuce plants, into which PR-GUS or 35S-GUS was introduced, high GUS activity and integration of the chimeric gene into the lettuce genome were detected. By treatment with salicylic acid, GUS activity increased 3- to 50-fold in PR-GUS transformants, however, no increase was detected in 35S-GUS plants. These results showed that the promoter of the stress-inducible tobacco PR1a protein gene was introduced into lettuce plants, and the introduced chimeric gene was expressed normally under the regulated control of the PRla promoter.Abbreviations BA N6-benzyladenine - GUS -glucuronidase - NAA -naphthaleneacetic acid - Km kanamycin - Km^s kanamycin resistant - Km⁰ kanamycin sensitive - NPT- II neomycin phosphotransferase II - PR pathogenesis-related - SA salicylic acid - MS Murashige and Skoog medium - NOS nopaline synthase     

The type-1 and type-2 ribosome-inactivating proteins from<Emphasis Type="Italic"> Iris</Emphasis> confer transgenic tobacco plants local but not systemic protection against viruses

The antiviral activity of the type-2 ribosome-inactivating protein (RIP) IRAb from Iris was analyzed by expressing IRAb in tobacco (Nicotiana tabacum L. cv. Samsun NN) plants and challenging the transgenic plants with tobacco mosaic virus (TMV). Although constitutive expression of IRAb resulted in an aberrant phenotype, the plants were fertile. Transgenic tobacco lines expressing IRAb showed a dose-dependent enhanced resistance against TMV infection but the level of protection was markedly lower than in plants expressing IRIP, the type-1 RIP from Iris that closely resembles the A-chain of IRAb. To verify whether IRIP or IRAb can also confer systemic protection against viruses, transgenic RIP-expressing scions were grafted onto control rootstocks and leaves of the rootstocks challenged with tobacco etch virus (TEV). In spite of the strong local antiviral effect of IRIP and IRAb the RIPs could not provide systemic protection against TEV. Hence our results demonstrate that expression of the type-1 and type-2 RIPs from Iris confers tobacco plants local protection against two unrelated viruses. The antiviral activity of both RIPs was not accompanied by an induction of pathogenesis-related proteins. It is suggested that the observed antiviral activity of both Iris RIPs relies on their RNA N-glycohydrolase activity towards TMV RNA and plant rRNA.Abbreviations GUS -Glucuronidase - IRAb Iris agglutinin b - IRIP Iris type-1 RIP - PAG Polynucleotide:adenosine glycosylase - PAP Phytolacca americana antiviral protein - PR Pathogenesis-related - RIP Ribosome-inactivating protein - TCS Trichosanthin - TEV Tobacco etch virus - TMV Tobacco mosaic virus     

Virus Resistance Induced with Mannan Sulphates in Hypersensitive Host Plants

Mannan sulphates (MS), obtained by sulphatation of extracellular linear mannan (LM) from Rhodotorula rubra, induced resistance to tobacco mosaic virus (TMV) in hypersensitive plants, retained in isolated protoplasts. MS-induced resistance in tobacco is accompanied by a marked increase of lytic processes in cells and a decrease of total (acidic and alkaline) protein content. In addition to this, new protein components, including PR-proteins and antiviral substances, of the inhibitor of virus replication (IVR) type, appeared in treated plant tissues. MS-induced resistance resembles localized resistance induced by TMV in hypersensitive tobacco plants and could serve as an experimental model for study of the latter.     

Genetic transformation of flax (Linum usitatissimum) by Agrobacterium tumefaciens: regeneration of transformed shoots via a callus phase

Genetic transformation of flax (Linum usitatissimum) has been achieved using an A. tumefaciens strain carrying a non-oncogenic Ti plasmid-derived vector containing a chimaeric npt-II gene and a wild type nopaline synthase gene. Fertile, transformed shoots were most easily obtained from Km^r callus developing on hypocotyl sections. The totipotency of the Km^r callus was dependent upon its origin. T-DNA was visualised by Southern blotting in all Km^r tissues. Efficient expression of nopaline synthase and the chimaeric npt-II gene was found in transformed Km^r callus and regenerated shoots.Abbreviations npt-II neomycin phosphotransferase II gene - NPT-II neomycin phosphotransferase II - nos nopaline synthase gene promoter - Km^r kanamycin resistant - BAP 6-benzylaminopurine - NAA -naphthaleneacetic acid - MSD4×2 medium D4×2 based on Murashige & Skoog medium (see Scott & Draper, 1987)     

Somatic hybridization between male sterile Nicotiana tabacum and N. glutinosa through protoplast fusion

Summary Protoplasts derived from suspension cultured cells of cytoplasmic male sterile Nicotiana tabacum (N. debneyi cytoplasm) and of fertile N. glutinosa were fused with the aid of polyethylene glycol (PEG). Out of 1,089 colonies developed from PEG-treated protoplasts, 29 restored whole plants.A somatic hybrid plant was selected on the basis of isoelectrofocusing analysis of Fraction I protein in leaves of regenerated plants. A newly created hybrid contained small subunits of both parents but only a N. glutinosa type large subunit.Male sterile character was conserved in a hybrid plant while leaf morphology was intermediate between the parents. By tobacco mosaic virus infection tests, the hybrid's leaves showed resistant symptoms, hypersensitive local lesions, which were due to N. glutinosa nuclear genome expression.Abbreviations PEG Polyethylene glycol - TMV Tobacco mosaic virus     

Cloning and expression in Escherichia coli of the homoserine kinase (thrB) gene from Brevibacterium lactofermentum

Summary Five DNA fragments carrying the thrB gene (homoserine kinase E.C. 2.7.1.39) of Brevibacterium lactofermentum were cloned by complementation of Escherichia coli thrB mutants using pBR322 as vector. All the cloned fragments contained a common 3.1 kb DNA sequence. The cloned fragments hybridized among themselves and with a 9 kb BamHI fragment of the chromosomal DNA of B. lactofermentum but not with the DNA of E. coli. None of the cloned fragments were able to complement thrA and thrC mutations of E. coli. Plasmids pULTH2, pULTH8 and pULTH11 had the cloned DNA fragments in the same orientation and were very stable. On the contrary, plasmid pULTH18 was very unstable and showed the DNA inserted in the opposite direction. E. coli minicells transformed with plasmids pULTH8 or pULTH11 (both carrying the common 3.1 kb fragment) synthesize a protein with an M _r of 30,000 that is similar in size to the homoserine kinase of E. coli.Abbreviations SSC 0.15 M NaCl, 0.015 M sodium citrate - SDS sodium dodecyl sulphate - TSB tripticase soy broth - m-DAP meso-diaminopimelic acid - Sm^r, Cp^r, Km^r, Am^r, Ap^r, Tc^r, MA15^r resistance to streptomycin, cephalotin, kanamycin, amykacin, ampicillin, tetracycline and microcin A 15, respectively     

Targeted disruption of the TGA3 locus in Arabidopsis thaliana

A major drawback to study gene functions in plant systems is the lack of an effective gene knockout strategy. With a large number of plant genes isolated and the accelerating pace by which this collection is growing, the need for their functional analyses at the whole plant level has become increasingly urgent. Here evidence is reported for the first successful disruption of a non-selectable gene in Arabidopsis thaliana by creating a mutant of the TGA3 locus via targeted insertion of the bacterial neo gene conferring kanamycin (Km) resistance. A β-glucuronidase (GUS) expression unit outside the region of homology was used as a screenable marker to distinguish homologous recombination events from those of ectopic insertions. PCR amplification coupled with Southern blot screening identified two putative homologous recombination events among 2580 Km^r calli. One callus line was subsequently isolated and the structure of the targeted TGA3 allele confirmed by Southern blot analyses. This study demonstrates the feasibility of targeting a non-selectable locus in Arabidopsis. Combined with future improvements in negative selection strategies and efficient, transformation methodologies, gene replacement studies in plants could become a routine technique.     

Cloning of Helicobacter pylori urease subunit B gene and its expression in tobacco (Nicotiana tabacum L.)

Vaccines produced by transgenic plants would have the potential to change the traditional means of production and inoculation of vaccines, and to reduce the cost of vaccine production. In the present study, an UreB antigen gene from a new Helicobacter pylori strain ZJC02 was cloned into the binary vector pBI121 which contains a CaMV35S promoter and a kanamycin resistance gene, and then transformed UreB into tobacco leaf-disc by Agrobacterium-mediated method. A total of 50 regenerated plants with kanamycin resistance were obtained in the selection media. The 35 putative transgenic individuals were tested and verified the presence and integration of the UreB into the nuclear genome of tobacco plants by PCR, PCR-southern, and Southern analyses. Expression of UreB gene in the tobacco plants was confirmed by RT-PCR and Western Blot analysis using polyclonal human antiserum. To our knowledge, this is the first report of the expression of Helicobacter pylori UreB antigen gene in a plant system, suggesting a major step in the production of plant-based vaccines for Helicobacter pylori.     

Effect of mitochondria-targeted antioxidant SkQ1 on programmed cell death induced by viral proteins in tobacco plants

Programmed cell death (PCD) is the main defense mechanism in plants to fight various pathogens including viruses. The best-studied example of virus-induced PCD in plants is Tobacco mosaic virus (TMV)-elicited hypersensitive response in tobacco plants containing the N resistance gene. It was previously reported that the animal mitochondrial protein Bcl-xL, which lacks a homolog in plants, effectively suppresses plant PCD induced by TMV p50 — the elicitor of hyper-sensitive response in Nicotiana tabacum carrying the N gene. Our studies show that the mitochondria-targeted antioxidant SkQ1 effectively suppresses p50-induced PCD in tobacco plants. On the other hand, SkQ1 did not affect Poa semilatent virus TGB3-induced endoplasmic reticulum stress, which is followed by PCD, in Nicotiana benthamiana epidermal cells. These data suggest that mitochondria-targeted antioxidant SkQ1 can be used to study molecular mechanisms of PCD suppression in plants.