D. Pavingerová

Use of phosphomannose isomerase-based selection system for Agrobacterium -mediated transformation of tomato and potato

Two selection systems for Agrobacterium tumefaciens mediated transformation of tomato and potato were compared. In the tomato (Lycopersicon esculentum cv. Moneymaker), the highest transformation rate, 4.2 %, of cotyledon explants on mannose-selection medium was obtained when mannose/sucrose concentration in the regeneration medium was 5/15 g dm−3. The best transformation efficacy with the commonly used concentration of 100 mg dm−3 kanamycin as a selection agent was 9 %. In the potato (Solanum tuberosum cv. Bintje), the highest transformation frequency was 53.3 % when mannose concentration in the regeneration medium was 5 g dm−3 during the first 3 weeks after transformation and 10 g dm−3 afterwards. The optimum concentration of sucrose was 20 g dm−3. The transformation efficiency using kanamycin as a selection agent at a concentration 100 mg dm−3 was 33.3 % with potato. Our results demonstrate that the transformation efficiency using mannose selection is 1.6-fold higher for potato and about 2 times lower for tomato comparing with the ordinary protocol using kanamycin.

Transformation of Rhododendron spp. using Agrobacterium tumefaciens with a GUS-intron chimeric gene

Abstract The five Rhododendron cultivars, ‘America’, ‘Catawbiense grandiflorum roseum’, ‘Madame Carvalho’, ‘Mars’ and ‘Nova Zembla’ were used for transformation by Agrobacterium tumefaciens carrying T-DNA with the gusA gene encoding β-glucuronidase (GUS) gene and the neomycin phosphotransferase II gene as a selectable marker gene. The GUS reporter gene was successfully transferred into all five cultivars as indicated by fluorimetric staining, polymerase chain reaction (PCR) and Southern blot analysis. Some primary transformants appeared to be chimeric as both GUS expression and GUS nucleotide sequences were lost during vegetative propagation.

New in vitro method for evaluating antiviral activity of acyclic nucleoside phosphonates against plant viruses.

A new method was developed for testing antiviral compounds against plant viruses based on rapidly growing brassicas in vitro on liquid medium. This method enables exchange of media containing tested chemicals in various concentrations and simultaneous evaluation of their phytotoxicity and antiviral activity. While using ribavirin as a standard for comparison, phytotoxicity and ability of the acyclic nucleotide analogues (R)-PMPA, PMEA, PMEDAP, and (S)-HPMPC to eliminate ssRNA Turnip yellow mosaic virus (TYMV) were evaluated by this method. Double antibody sandwich ELISA and real-time PCR were used for relative quantification of viral protein and nucleic acid in plants. Ribavirin had the most powerful antiviral effect against TYMV. On the other hand, (R)-PMPA and PMEA had no antiviral effect and almost no phytotoxicity compared to the control. (S)-HPMPC and PMEDAP showed moderate antiviral effect, accompanied by higher phytotoxicity. The tested compounds can be screened within 6-9 weeks in contrast to the 6 months for traditionally used explants on solid medium. The method enables large-scale screening of potential antivirals for in vitro elimination of viruses from vegetatively propagated crops and ornamentals.

Comparison of hCMV immediate early and CaMV 35S promoters in both plant and human cells

Cauliflower mosaic virus 35S promoter, widely used in transgenic crop plants, is known to be recognized in widely differing kinds of cells. Its activity in human cells may have impact on the risk assessment for the environmental release of genetically modified plants. In this study, transient expression of several constructs containing beta-glucuronidase (GUS) gene driven by cauliflower mosaic virus 35S promoter or by immediate early promoter of human cytomegalovirus (pCMV) was tested in both potato leaf protoplasts and cultured human cells. The results showed very low but measurable activity of 35S promoter in human 293T-cells (0.01% of that revealed when using pCMV) and in 293 cells that do not produce SV40 T antigen this activity was even lower. On the other hand, in potato protoplasts, pCMV displayed nearly 1% activity seen with p35S.

The influence of thidiazuron on shoot regeneration from leaf explants of fifteen cultivars of Rhododendron

The influence of cytokinin thidiazuron (TDZ) and auxin indole-3-acetic acid (IAA) on in vitro shoot organogenesis of fifteen Rhododendron genotypes was investigated and a protocol for high frequency adventitious shoot regeneration from leaf explants was developed. High genotypic variation was observed and regeneration frequencies ranged from 0 to 100 %. Genotype Ovation had the highest number of shoots (26.4 per explant) after 12 weeks on medium with 0.57 µM IAA and 1.20 µM TDZ, but only 65 % of explants regenerated. Catawbiense Grandiflorum had 17.7 shoots per explant and 75 % regeneration on medium with 5.70 µM IAA and 0.45 µM TDZ and Van Werden Poelman had 14.3 shoots per explant and 100 % regeneration on medium with 0 57 µM IAA and 0.45 µM TDZ.

Antiviral activity of tenofovir against Cauliflower mosaic virus and its metabolism in Brassica pekinensis plants.

The antiviral effect of the acyclic nucleoside phosphonate tenofovir (R)-PMPA on double-stranded DNA Cauliflower mosaic virus (CaMV) in Brassica pekinensis plants grown in vitro on liquid medium was evaluated. Double antibody sandwich ELISA and PCR were used for relative quantification of viral protein and detecting nucleic acid in plants. (R)-PMPA at concentrations of 25 and 50 mg/l significantly reduced CaMV titers in plants within 6-9 weeks to levels detectable neither by ELISA nor by PCR. Virus-free plants were obtained after 3-month cultivation of meristem tips on semisolid medium containing 50 mg/l (R)-PMPA and their regeneration to whole plants in the greenhouse. Studying the metabolism of (R)-PMPA in B. pekinensis revealed that mono- and diphosphate, structural analogs of NDP and/or NTP, are the only metabolites formed. The data indicate very low substrate activity of the enzymes toward (R)-PMPA as substrate. The extent of phosphorylation in the plants leaves represents only 4.5% of applied labeled (R)-PMPA. In roots, we detected no radioactive peaks of phosphorylated metabolites of (R)-PMPAp or (R)-PMPApp.

Production of human papillomavirus type 16 E7 oncoprotein fused with β-glucuronidase in transgenic tomato and potato plants

The human papillomavirus type 16 (HPV 16) oncogene E7 fused with the gene for β-glucuronidase (gus) was used in plant transformation experiments. The E7 gene modified for lower cancerogenicity and fused with the 5′ end of the gus in cassettes with cauliflower mosaic virus 35S promoter and transcription terminator produced high contents of fusion proteins in potato protoplasts. Expression vectors harbouring E7 fusion cassettes were used for Agrobacterium tumefaciens LBA4404 mediated transformation of either potato (Solanum tuberosum L. cv. Bintje) or tomato (Lycopersicon esculentum Mill. cv. Moneymaker). A fusion gene was found in all rooted regenerants using polymerase chain reaction with primers providing amplified fragments from E7 and gus genes. GUS activity was revealed in all regenerants obtained. Nevertheless, the level of GUS expression in different constructs varied much more than in transient expression experiments with potato protoplasts. Especially, expression level in plants carrying vectors with the whole E7 gene fused with gus was lowered by 2–3 orders of magnitude comparing with fusion of the first 41 codons of E7 and gus. Southern hybridisation of 18 tomato and 23 potato regenerants revealed mostly multiple tandem integration of T-DNA into the plant genome and Western blot proved the presence of the fusion protein in 9 tomato and 11 potato plants out of 41 tested individuals.

Tissue culture and transformation of Oenothera biennis

Five cultivars ofOenothera biennis have been tested for callogenesis and organogenesis on different media. The cultivar CV3 has been transformed byAgrobacterium tumefaciens strain which introduces into the plant genome kanamycin resistance gene and the T-DNAipt gene which causes increased levels of cytokinins. Transformed tissues showed elevated levels of cytokinins and grew as teratomas forming clumps of short, branched shoots with small modified leaves. Roots appeared rarely in later subcultivations of some teratomous clones.

Cry3A δ-endotoxin gene mutagenized for enhanced toxicity to spruce bark beetle in a receptor binding loop

Bacillus thuringiensis Cry3A gene was redesigned for high expression in Norwegian spruce and the sequence was slightly modified to allow for simple N- and C- terminal deletions and domain II loop 1 exchange for synthetic oligos. Modified Cry3A toxins from 13 variants of the synthetic gene were expressed in Escherichia coli BL21 and their toxicity on spruce bark beetle larvae was tested using spruce bark sandwiches. Mutant toxins with N-terminal deletion and loop 1 duplication showed increased toxicity. Key words : Bacillus thuringiensis , Ips typographus, Picea abies, resistance.

Germinal Excision and Reinsertion Frequencies of the Mobile Element Ds Transposed from Two Unlinked T-DNA Loci in Tomato

Acceptor sites of unlinked transposed Ds element from two T-DNA loci in tomato were mapped. Experimental data obtained from TC1 progeny testing were employed for estimation of germinal excision frequency (GEF) of Ds element and frequency of its reinsertion (FR). The donor T-DNAs 1481J and 1601D, containing a 35S:NPT transformation marker, a 35S:BAR or nos:BAR excision marker conferring phosphinothricine resistance and a Ds element in the 5′ untranslated leader of the nos (or 35S): BAR gene, were located on chromosome 7 and 8, respectively. Ds transposition was induced by 105121 T-DNA carrying stabilized Ac (sAc) which provides a source of transposase and 2′:GUS marker conferring β-glucuronidase activity. Tomato plants harbouring the Ds in 1481J or 1601D locus and sAc were crossed and F1D, were crossed individually as seed parents to wild-type plants to generate TC1 progenies. TC1 seed was germinated on phosphinothricine (Basta)-containing medium, and individual seedlings carrying a transposed Ds and lacking sAc were identified by PCR (to detect the Ds) on phosphinothricine resistant individuals that lacked β-glucuronidase activity. From segregation ratio in TC1 the germinal excision and reinsertion frequencies of the Ds element were estimated for individual F1 plants. A total of 14560 TC1 seedlings of 1481J and 16195 TC1 seedlings of 1601D was analyzed. We observed high variation between individual plants as regards both GEF and FR despite of donor locus (1481J or 1601D), however, the average germinal excision frequencies as well as average frequencies of reinsertion were very similar for both donor loci: GEF1481J = 24 %, GEF1501D = 25 %, FR1481J = 42 %, FR1601D = 46 %.