Promotion of flowering and morphological alterations in Atropa belladonna transformed with a CaMV 35S-rolC chimeric gene of the Ri plasmid

Summary Kanamycin-resistant plants of belladonna (Atropa belladonna) were obtained after Agrobacterium mediated transformation. When a rolC gene, which is one of the loci located on Ri plasmid of Agrobacterium rhizogenes, was co-introduced with a kanamycin resistant (NPT II) gene under control of a cauliflower mosaic virus 35S promoter, the rolC gene was expressed strongly in leaves, flowers, stems and roots. The transformed plants exhibited dramatic promotion of flowering, reduced apical dominance, pale and lanceolated leaves and smaller flowers. On the other hand, when native rolC gene was co-introduced with NPT II, the transgenic plants obtained did not exhibit the altered phenotypes observed in 35S-rolC transformants, and the expression level of the rolC gene was much lower than in 35S-rolC transformants. These results suggest that the morphological changes in transgenic Atropa belladonna were related to the degree of expression of the rolC gene.Abbreviations native rolC rolC gene under control of its own promoter - 35S-rolC rolC gene under control of a cauliflower mosaic viras 35S promoter     

Transgenic regal pelargoniums that express the rolC gene from Agrobacterium rhizogenes exhibit a dwarf floral and vegetative phenotype

Summary The regal pelargonium, ev. Dubonnet, was transformed using the disarmed Agrobacterium tumefaciens strains LBA4404 or EHA105 containing the binary vector pLN70. This plasmid carries on its T-DNA the rolC gene from Agrobacterium rhizogenes under control of the CaMV 35S promoter and the npt II selectable marker gene under a NOS promoter. Six independent transformants were produced and grouped according to their phenotypic characteristics. Two transformants showed the same phenotype as the untransformed control plants. Three transformants exhibited a dwarf phenotype and one displayed a super-dwarf phenotype. Southern hybridization analyses of the T-DNA left border region using a npt II probe showed that the six transformants all arose from independent transformation events. Northern hybridization analyses showed that the rolC gene was expressed only in the four transformants that exhibited a dwarf phenotype. Our data show that the phenotypic effects of rolC expression in regal pelargoniums include reductions in plant height, leaf area, petal area, and corolla length. Earlier flowering of the rolC transgenics by up to 22d was also observed.     

Development of insect resistant transgenic cotton lines expressing cry1EC gene from an insect bite and wound inducible promoter

Transgenic cotton lines were developed for high-level expression of a synthetic cry1EC gene from a wound inducible promoter. The tobacco pathogenesis related promoter PR-1a was modified by placing CaMV35S promoter on its upstream in reverse orientation. The resultant chimeric promoter CaMV35S(r)PR-1a expressed constitutively and was further up-regulated at the site of feeding by insects. It was induced more rapidly by treatment with salicylic acid (SA). The CaMV35S(r)PR-1a cry1EC expressing transgenic lines of cotton showed 100% mortality of Spodoptera litura larvae. The tightly regulated low-level expression of PR-1a was modified to a highly expressing constitutive expression by CaMV35S placed in reverse orientation. Salicylic acid treatment and wounding enhanced the expression further by the chimeric promoter. The leaves expressed more δ-endotoxin around the sites of insect bites. The levels of expression and induction varied among different transgenic lines, suggesting position effect. Some of the transgenic lines that expressed Cry1EC from the chimeric promoter at a low level also showed 100% mortality when induced with salicylic acid. A highly expressing insect bite and wound inducible promoter is desirable for developing insect resistant transgenic plants.     

Expression of a chimeric ribozyme gene results in endonucleolytic cleavage of target mRNA and a concomitant reduction of gene expression in vivo.

The subclass of catalytic RNAs termed ribozymes cleave specific target RNA sequences in vitro. Only circumstantial evidence supports the idea that ribozymes may also act in vivo. In this study, ribozymes with a hammerhead motif directed against a target sequence within the mRNA of the neomycin phosphotransferase gene (npt) were embedded into a functional chimeric gene. Two genes, one containing the ribozyme and the other producing the target, were cotransfected into plant protoplasts. Following in vivo expression, a predefined cleavage product of the target mRNA was detected by ribonuclease protection. Expression of both the ribozyme gene and the target gene was driven by the CaMV 35S promoter. Concomitant with the endonucleolytic cleavage of the target mRNA, a complete reduction of NPT activity was observed. An A to G substitution within the ribozyme domain completely inactivates ribozyme-mediated hydrolysis but still shows a reduction in NPT activity, albeit less pronounced. Therefore, the reduction of NPT activity produced by the active ribozyme is best explained by both hydrolytic cleavage and an antisense effect. However, the mutant ribozyme--target complex was more stable than the wildtype ribozyme--target complex. This may result in an overestimation of the antisense effect contributing to the overall reduction of gene expression.     

Analysis of the Tissue-SpecificS RNase gene promoter associated with self-incompatibility in tomato (Lycopersicon peruvianum L.)

To understand the expression pattern of theS RNase gene in the floral tissues associated with self-incompatibility (SI), promoter region of S₁₁ RNase gene was serially deleted and fused GUS. Five chimeric constructs containing a deleted promoter region of the S₁₁ RNase gene were constructed, and introduced intoNicotiana tabacum using Agrobacterium-mediated transformation. Northern blot analysis revealed that the GUS gene was expressed in the style, anther, and developing pollen of all stages in each transgenic tobacco plant The developing pollen expressed the same amount of GUS mRNA in all stages in transgenic tobacco plants. In addition, histochemical analysis showed GUS gene expression in vascular bundle, endothecium, stomium, and tapetum cells during pollen development in transgenic plants. From these results, it is speculated that SI ofLycopersicon peruvianum may occur through the interaction ofS RNase expressed in both style and pollen tissues.     

Expression of a Novel Antiporter Gene from Brassica napus Resulted in Enhanced Salt Tolerance in Transgenic Tobacco Plants

Tobacco leaf discs were transformed with a plasmid pBIBnNHX1, containing the selectable marker neomycin phosphotransferase gene (nptII) and Na⁺/H⁺ vacuolar antiporter gene from Brassica napus (BnNHX1), via Agrobacterium tumefaciens-mediated transformation. Thirty-two independent transgenic plants were regenerated. Polymerase chain reaction (PCR) and Southern blot analyses confirmed that the BnNHX1 gene had integrated into plant genome and Northern blot analysis revealed the transgene expression at various levels in transgenic plants. Transgenic plants expressing BnNHX1 had enhanced salt tolerance and could grow and produce seeds normally in the presence of 200 mM NaCl. Analysis for the T₁ progenies derived from seven independent transgenic primary transformants expressing BnNHX1 showed that the transgenes in most tested independent T₁ lines were inherited at Mendelian 3:1 segregation ratios. Transgenic T₁ progenies could express _BnNHX1 and had salt tolerance at levels comparable to their T₀ parental lines. This study implicates that the BnNHX1 gene represents a promising candidate in the development of crops for enhanced salt tolerance by genetic engineering.     

Characterization of the tissue-specific expression of phenylalanine ammonia-lyase gene promoter from loblolly pine (<Emphasis Type="Italic">Pinus taeda</Emphasis>) in <Emphasis Type="Italic">Nicotiana tabacum</Emphasis>

We isolated the 5′ flanking region of a gene for phenylalanine ammonia-lyase (PAL; EC 4.3.1.5) from Pinus taeda, PtaPAL. To investigate the tissue-specific expression of the PtaPAL promoter, histochemical assay of GUS activity was performed using the transgenic tobacco expressing the PtaPAL promoter-GUS. The region of −897 to −420 in PtaPAL promoter showed high activities in the secondary xylem and response to bending stress. To characterize the cis-regulatory functions of the promoters for enzymes in phenylpropanoid biosynthesis, we examined the activity of chimeric promoters of PtaPAL and a 4-coumarate CoA ligase, Pta4CLα. The chimeric promoter showed similar activity as the Pta4CLα promoter. Electrophoretic mobility shift assays implicated −897 to –674 of PtaPAL promoter containing cis-elements of the expression in xylem of Pinus taeda. The results suggested that AC elements of PtaPAL have multiple functions in the expression under the various developmental stages and stress conditions in the transgenic tobacco. The nucleotide sequence data reported will appear in the EMBL, GenBank, and DDBJ Nucleotide Sequence Databases under the accession number AB449103 (PtaPAL promoter sequence).     

The usefulness of the <Emphasis Type="Italic">gfp</Emphasis> reporter gene for monitoring <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of potato dihaploid and tetraploid genotypes

Potato is one of the main targets for genetic improvement by gene transfer. The aim of the present study was to establish a robust protocol for the genetic transformation of three dihaploid and four economically important cultivars of potato using Agrobacterium tumefaciens carrying the in vivo screenable reporter gene for green fluorescent protein (gfp) and the marker gene for neomycin phosphotransferase (nptII). Stem and leaf explants were used for transformation by Agrobacterium tumefaciens strain LBA4404 carrying the binary vector pHB2892. Kanamycin selection, visual screening of GFP by epifluorescent microscopy, PCR amplification of nptII and gfp genes, as well as RT-PCR and Southern blotting of gfp and Northern blotting of nptII, were used for transgenic plant selection, identification and analysis. Genetic transformation was optimized for the best performing genotypes with a mean number of shoots expressing gfp per explant of 13 and 2 (dihaploid line 178/10 and cv. ‘Baltica’, respectively). The nptII marker and gfp reporter genes permitted selection and excellent visual screening of transgenic tissues and plants. They also revealed the effects of antibiotic selection on organogenesis and transformation frequency, and the identification of escapes and chimeras in all potato genotypes. Silencing of the gfp transgene that may represent site-specific inactivation during cell differentiation, occurred in some transgenic shoots of tetraploid cultivars and in specific chimeric clones of the dihaploid line 178/10. The regeneration of escapes could be attributed to either the protection of non-transformed cells by neighbouring transgenic cells, or the persistence of Agrobacterium cells in plant tissues after co-cultivation.     

The expression of a heat-inducible chimeric gene in transgenic tobacco plants

Summary A chimeric gene under the control of the hsp70 promoter of Drosophila is heat regulated in roots, stems and leaves, but not in pollen of transgenic tobacco plants. For these and other parameters, it behaves similarly to plant heat-shock genes.     

Inheritance of gusA and neo genes in transgenic rice

Inheritance of foreign genes neo and gusA in rice (Oryza sativa L. cv. IR54 and Radon) has been investigated in three different primary (T₀) transformants and their progeny plants. T₀ plants were obtained by co-transforming protoplasts from two different rice suspension cultures with the neomycin phosphotransferase II gene [neo or aph (3) II] and the -glucuronidase gene (uidA or gusA) residing on separate chimeric plasmid constructs. The suspension cultures were derived from callus of immature embryos of indica variety IR54 and japonica variety Radon. One transgenic line of Radon (AR2) contained neo driven by the CaMV 35S promoter and gusA driven by the rice actin promoter. A second Radon line (R3) contained neo driven by the CaMV 35S promoter and gusA driven by a promoter of the rice tungro bacilliform virus. The third transgenic line, IR54-1, contained neo driven by the CaMV 35S promoter and gusA driven by the CaMV 35S.Inheritance of the transgenes in progeny of the transgenic rice was investigated by Southern blot analysis and enzyme assays. Southern blot analysis of genomic DNA showed that, regardless of copy numbers of the transgenes in the plant genome and the fact that the two transgenes resided on two different plasmids before transformation, the introduced gusA and neo genes were stably transmitted from one generation to another and co-inherited together in transgenic rice progeny plants derived from self-pollination. Analysis of GUS and NPT II activities in T₁ to T₂ plants provided evidence that inheritance of the gusA and neo genes was in a Mendelian fashion in one plant line (AR2), and in an irregular fashion in the two other plant lines (R3 and IR54-1). Homozygous progeny plants expressing the gusA and neo genes were obtained in the T₂ generation of AR2, but the homozygous state was not found in the other two lines of transgenic rice.     

Self-excision of the antibiotic resistance gene nptII using a heat inducible Cre-loxP system from transgenic potato

Resistance to antibiotics mediated by selectable marker genes remains a powerful selection tool for transgenic event production. However, regulatory agencies and consumer concerns favor these to be eliminated from food crops. Several excision systems exist but none have been optimized or shown to be functional for clonally propagated crops. The excision of the nptII gene conferring resistance to kanamycin has been achieved here using a gene construct based on a heat-inducible cre gene producing a recombinase that eliminates cre and nptII genes flanked by two loxP sites. First-generation regenerants with the Cre-loxP system were obtained by selection on kanamycin media. Following a heat treatment, second generation regenerants were screened for excision by PCR using nptII, cre, and T-DNA borders primers. Excision efficiency appeared to be at 4.7% depending on the heat treatment. The footprint of the excision was shown by sequencing between T-DNA borders to correspond to a perfect recombination event. Selectable marker-free sprouts were also obtained from tubers of transgenic events when submitted to similar heat treatment at 4% frequency. Spontaneous excision was not observed out of 196 regenerants from untreated transgenic explants. Biosafety concerns are minimized because the expression of cre gene driven by the hsp70 promoter of Drosophila melanogaster was remarkably low even under heat activation and no functional loxP site were found in published Solanum sequence database. A new plant transformation vector pCIP54/55 was developed including a multiple cloning site and the self-excision system which should be a useful tool not only for marker genes in potato but for any gene or sequence removal in any plant.     

A chimeric gene encoding the methionine-rich 2S albumin of the Brazil nut (Bertlrolletia excelsa H.B.K.) is stably expressed and inherited in transgenic grain legumes

The coding region of the 2S albumin gene of Brazil nut (Bertholletia excelsa H.B.K.) was completely synthesized, placed under control of the cauliflower mosaic virus (CaMV) 35S promoter and inserted into the binary vector plasmid pGSGLUC1, thus giving rise to pGSGLUC1-2S. This was used for transformation of tobacco (Nicotiana tabacum L. cv. Petit Havanna) and of the grain legume Vicia narbonensis L., mediated by the supervirulent Agrobacterium tumefaciens strain EHA 101. Putative transformants were selected by screening for neomycin phosphotransferase (NPT II) and -glucuronidase (GUS) activities. Transgenic plants were grown until flowering and fruiting occurred. The presence of the foreign gene was confirmed by Southern analysis. GUS activity was found in all organs of the regenerated transgenic tobacco and legume plants, including the seeds. In the legume, the highest expression levels of the CaMV 35S promoter-controlled 2S albumin gene were observed in leaves and roots. 2S albumin was localized in the vacuoles of leaf mesophyll cells of transgenic tobacco. The Brazil nut protein was present in the 2S fraction after gel filtration chromatography of the legume seed proteins and could be clearly identified by immunoblotting. Analysis of seeds from the R₂ progenies of the legume and of transgenic tobacco plants revealed Mendelian inheritance of the foreign gene. Agrobacterium rhizogenes strain RifR 15834 harbouring the binary vector pGSGLUCl2S was also used to transform Pisum sativum L. and Vicia faba L. Hairy roots expressed the 2S albumin-specific gene. Several shoots were raised but they never completely rooted and no fertile plants were obtained from these transformants.     

烟草花叶病毒外壳蛋白嵌合基团的重组

普通烟草花叶病毒外壳蛋白基因已和花椰菜花叶病毒35S启动子及3′未端重组成嵌合基因。在连接了用于筛选在土壤杆菌中导入外源基因的新霉素磷酸转移酶Ⅰ(NPT Ⅰ)基因和用于筛选在植物细胞中导入外源基因的嵌合的新霉素磷酸转移酶Ⅱ(NPT Ⅱ)基因后,已导入一个去致瘤基因的Ti载体T-DNA区中。这种在Ti载体T-DNA区带嵌合的烟草花叶病毒外壳蛋白基因的土壤杆菌菌株,可以用来转化植物。观察在转化植物中表达的这种外壳蛋白能否延缓或减轻烟草花叶病毒对它们的危害。     

Salicylic-Acid-Induced Self-excision of the Marker Gene <Emphasis Type="Italic">npt</Emphasis>II from Transgenic Tomato Using the Cre–<Emphasis Type="Italic">loxP</Emphasis> System

The presence of antibiotic-resistant genes in genetically engineered crops together with the target gene has generated a number of environmental and consumer concerns. In order to alleviate public concerns over the safety of food derived from transgenic crops, marker gene elimination is desirable. Marker-free transgenic tomato plants were obtained by using a salicylic-acid-regulated Cre–loxP-mediated site-specific DNA recombination system in which the selectable marker neomycin phosphotransferase nptII and cre genes were flanked by two directly oriented loxP sites. Upon induction by salicylic acid, the cre gene produced a recombinase that eliminated sequences encoding nptII and cre genes, sandwiched by two loxP sites from the tomato genome. Regenerant plants with the Cre–loxP system were obtained by selection on kanamycin media and polymerase chain reaction (PCR) screening. Transgenic plants were screened for excision by PCR using nptII, cre, and PR-1a promoter primers following treatment with salicylic acid. The footprint of the excision was determined by sequencing the T-DNA borders after a perfect recombination event. The excision efficiency was 38.7%. A new plant transformation vector, pBLNSC (Genbank accession number EU327497), was developed, containing six cloning sites and the self-excision system. This provided an effective approach to eliminate the selectable marker gene from transgenic tomato, thus expediting public acceptance of genetically modified tomato.     

Analysis of late-blight disease resistance and freezing tolerance in transgenic potato plants expressing sense and antisense genes for an osmotin-like protein

The expression patterns of plant defense genes encoding osmotin and osmotin-like proteins imply a dual function in osmotic stress and plant pathogen defense. We have produced transgenic potato (Solanum commersonii Dun.) plants constitutively expressing sense or antisense RNAs from chimeric gene constructs consisting of the cauliflower mosaic virus 35S promoter and a cDNA (pA13) for an osmotin-like protein. Transgenic potato plants expressing high levels of the pA13 osmotin-like protein showed an increased tolerance to the late-blight fungus Phytophthora infestans at various phases of infection, with a greater resistance at an early phase of fungal infection. There was a decrease in the accumulation of osmotin-like mRNAs and proteins when antisense transformants were challenged by fungal infection, although the antisense transformants did not exhibit any alterations in disease susceptibility. Expression of pA13 sense and antisense RNAs had no effect on the development of freezing tolerance in transgenic plants when assayed under a variety of conditions including treatments with abscisic acid or low temperature. These results provide evidence of antifungal activity for a potato osmotin-like protein against the fungus P. infestans, but do not indicate that pA13 osmotin-like protein is a major determinant of freezing tolerance.     

Control of gene expression in plant cells using a 434:VP16 chimeric protein

The herpes simplex virus type 1 VP16 polypeptide is a potent trans-activator of viral gene expression. We have tested the ability of the VP16 activation domain to activate gene expression in plant cells. A plasmid encoding a translational fusion between the full-length 434 repressor and the C-terminal 80 amino acids of VP16, was constructed. When expressed in Escherichia coli, the chimeric protein binds efficiently to 434-binding motifs (operators). For expression in plant cells, the chimeric activator gene was placed between the cauliflower mosaic virus (CaMV) 35S promoter and nos terminator sequences in a pUC-based plasmid. The 434 operators were placed upstream of a minimal CaMV 35S promoter linked to the E. coli gus reporter gene. This reporter-expression cassette was then incorporated into the same plasmid as the 434 cI/VP16 activator-expression cassette. Two control plasmids were also constructed, one encoding the 434 protein with no activator domain and the second a chimeric activator with no DNA-binding domain. The chimeric activator was tested for its ability to activate gene expression in a tobacco protoplast transient assay system. Results are presented to show that we can obtain in plant cells significant activation of gene expression that is dependent on both DNA-binding and the presence of the activator domain.     

Ntlim1, a PAL-box binding factor,controls promoter activity of the horseradish wound-inducible peroxidase gene

To understand molecular mechanisms underlying wound-induced expression of plant peroxidase genes, the promoter of a horseradish C2 peroxidase (prxC2) gene was analyzed. We had previously isolated a tobacco nuclear protein, Ntlim1, as a trans factor binding to a PAL-box motif of the prxC2 promoter; however, the function of the Ntlim1 trans factor and the PAL-box motif in wound-responsive expression of the prxC2 gene remains unclear. Here, we found that the prxC2 promoter without the intact PAL-box motif failed to direct a normal level of both the basal and the wound-induced expression of -glucuronidase (GUS) reporter gene in transgenic tobacco plants, indicating that the PAL-box motif functions as an essential cis element of the prxC2 promoter. We also found that antisense expression of Ntlim1 in transgenic plants carrying the prxC2 promoter::GUS chimeric construct decreased not only the level of the basal and the wound-induced expression of the GUSreporter gene but also the extent of wound inducibility of the prxC2 promoter itself. This result indicates that Ntlim1 is required for the basal level of prxC2 promoter activity as well as its up-regulation under wound stress. Moreover, consistent with the results obtained in planta, result from super-shift assay indicates that the Ntlim1 binds to the PAL-box motif independently of wound stress.