Co-expression and inheritance of foreign genes in transformants obtained by direct DNA transformation of tobacco protoplasts

Summary A plasmid containing two marker genes for expression in plants was constructed. This 16 kb vector, pCT1T3, contains an intact nopaline synthase gene and a chimaeric gene consisting of the promoter and terminator regions from cauliflower mosaic virus gene VI and a structural gene, aminoglycoside phosphotransferase (APH(3′)II), from the bacterial transposon Tn5. After transformation of tobacco mesophyll protoplasts with this plasmid, several kanamycin-resistant transformants were obtained. Intensive studies on the drug tolerance of growth and differentiation of the transformants showed that the chimaeric gene was stably expressed. Of 17 independent transformants, 3 (about 18%) expressed the two marker genes, regardless of the state of differentiation, as did individual plants regenerated from the same callus. Multiple copies of the inserted DNA were found in some transformants. Viable seeds were produced by 12 out of 15 independent transformants. Seeds obtained by self-pollination were germinated on medium containing kanamycin sulphate. With the exception of one clone, resistant seedlings with green leaves and sensitive seedlings with white leaves were found to segregate in a 3:1 ratio. This suggests that the inheritance of the inserted gene is Mendelian. A reciprocal cross between the transformants and wild-type tobacco also showed nuclear transmission of the APH(3′)II gene. This was consistently maintained in a subclone of the same transformant derived from the same callus line. Stable inheritance of the single dominant character was also seen among seeds formed in several different flower pods of the same individual plants. Two clones were also found to synthesize nopaline in addition to expressing APH(3′)II. Analysis of the progeny obtained by self-crosses of such transformants revealed the simultaneous expression of these two enzymes, indicating that the two marker genes are linked on the same chromosome.     

Chimeric genes as dominant selectable markers in plant cells

Opine synthases are enzymes produced in dicotyledonous plants as the result of a natural gene transfer phenomenon. Agrobacteria contain Ti plasmids that direct the transfer, stable integration and expression of a number of genes in plants, including the genes coding for octopine or nopaline synthase. This fact was used as the basis for the construction of a number of chimeric genes combining the 5' upstream promoter sequences and most of the untranslated leader sequence of the nopaline synthase (nos) gene with the coding sequence of two bacterial genes: the aminoglycoside phosphotransferase (APH(3')II) gene of Tn5 and the methotrexate-insensitive dihydrofolate reductase (DHFR Mtx^R) of the R67 plasmid. The APH(3')II enzyme inactivates a number of aminoglycoside antibiotics such as kanamycin, neomycin and G418. Kanamycin, G418 and methotrexate are very toxic to plants. The chimeric NOS-APH(3')II gene, when transferred to tobacco cells using the Ti plasmid as a gene vector, was expressed and conferred resistance to kanamycin to the plant cells. Kanamycin-resistant tobacco cells were shown to contain a typical APH(3')II phosphorylase activity. This chimeric gene can be used as a potent dominant selectable marker in plants. Similar results were also obtained with a NOS-DHFR Mtx^R gene. Our results demonstrate that foreign genes are not only transferred but are also functionally expressed when the appropriate constructions are made using promoters known to be active in plant cells.     

Inheritance and structure of foreign DNA in progenies of transgenic tobacco obtained by direct gene transfer

Summary One of the transformed tobacco plants obtained by direct DNA transformation possessed two marker genes, a chimeric aminoglycoside phosphotransferase and nopaline synthase genes. Selfed progenies of this plant (T3-d) showed stable inheritance of these two genes. The minimum size of foreign DNA integrated into tobacco genome was estimated to be 5.4 kbp. A deleted nopaline synthase gene co-existed with an intact gene. The linkage analysis indicated that two transformants, T1-b and T3-c, possessed foreign DNA inserted in different chromosomes or in different sites of the same chromosome that recombine freely.     

A High Efficient Transformation System and the Introduction of Sweet Protein Gene into Potato (Solanum tuberosum L.)

Tuber, minituber and in vitro-grown microtuber discs of potato (Solanum tuberosum L.) cultivars 85-14-3, 86-2 and Favorita were used in Agrobacterium mediated gene transfer. A simple, rapid and efficient transformation system was established. Among the three kinds of discs used, the microtuber disc was superior in obtaining transformants. Microtuber discs star ted to form shoots on shoot inducing medium containing kanamycin two to three weeks after cocultivation. Rooted transformants could be obtained in 6–7 weeks. The transformation efficiency could reach as high as 67.5%. The majority of kanamycin resistant plants gave nopaline positive or GUS expression. A number of transgenic plants were obtained using the plasmid containing a sweet protein NPT Ⅱ and nopaline synthase genes. The leaf callus assay and nopaline assay indicated that the foreign sweet protein gene was introduced into the potato genome.     

Transgenic Brassica napus plants obtained by cocultivation of protoplasts with Agrobacterium tumefaciens

Hypocotyl protoplasts of German winter oilseed, rape (Brassica napus) lines of double-low quality were transformed using Agrobacterium tumefaciens harbouring pGV 38501103 neo (dimer) containing chimaeric kanamycin resistance reporter genes. Transformed protoplasts were regenerated to fertile and phenotypically normal plants. Transformation was confirmed by kanamycin resistance, nopaline production, neomycinphosphotransferase II activity, and Southern blot hybridization. Seed progeny from self-pollinated transformants expressed the introduced kanamycin resistance as a Mendelian trait.Abbreviations BAP 6-benzylaminopurine - Cf Claforan^R - 2.4D 2,4-dichlorophenoxy acetic acid - Km kanamycin - MS Murashige and Skoog (1962) - NAA -naphthalene acetic acid - NPT II neomycinphosphotransferase - npt II neomycinphosphotransferase II gene - NOS nopaline synthase - nos nopaline synthase gene - ocs octopine synthase gene - IAA indole-3-acetic acid     

Genetic analysis of T-DNA insertions into the tobacco genome

A genetic test was performed on seeds from 283 transgenic tobacco plants obtained by T-DNA transformation. Seeds from self-fertilized transgenic plants were germinated on kanamycin-containing medium, and the percentage of seeds which germinated, as well as the ratio of kanamycin-resistant to kanamycin-sensitive seedlings were scored. Nine categories of transformants could be distinguished according to the number of loci into which T-DNA had inserted, and according to the effects of T-DNA integration on seed or seedling development. In most of the plants, T-DNA was inserted into a single site; others contained multiple independent copies of T-DNA. The number of T-DNA integration sites was found to be independent of whether a binary vector system or a cointegrate Ti plasmid had been used to obtain the transgenic plant. Loss of marker genes or marker gene expression from generation to generation appeared to be a quite frequent event. Plants which appeared to be insertional recessive embryo-lethal mutants did not exhibit this trait in the next generation.Abbreviations Kan^R kanamycin resistant - Kan^S kanamycin sensitive - NOP nopaline - NOS nopaline synthase - NPT II neomycin phosphotransferase II     

Expression of a foreign gene in callus derived from DNA-treated protoplasts of rice (Oryza sativa L.)

Summary Protoplasts isolated from suspension cultures of rice cells were treated with bacterial plasmid DNA carrying a chimaeric gene consisting of the nopaline synthase promoter, the aminoglycoside phosphotransferase II (APH(3)II) structural gene from bacterial transposon Tn5 and the terminator region from cauliflower mosaic virus DNA. Colonies capable of proliferating in medium containing kanamycin (100 g/ml) were selected. A transformation frequency of approximately 2% to 3% was recorded in several experiments. The enzyme (APH(3)II) was also detected in kanamycin-resistant callus, which had survived after repeated selection. There was some variation in the APH(3)II activity in the transformants which paralleled the copy number of the inserted genes.     

Transformation of the forage legume Trifolium repens L. using binary Agrobacterium vectors

A system was established for introducing cloned genes into white clover (Trifolium repens L.). A high regeneration white clover genotype was transformed with binary Agrobacterium vectors containing a chimaeric gene which confers kanamycin resistance. Transformed kanamycin resistant callus was obtained by culturing Agrobacterium inoculated stolon internode segments on selective medium. The kanamycin resistance phenotype was stable in cells and in regenerated shoots. Transformation was confirmed by the expression of an unselected gene, nopaline synthase in selected cells and transgenic shoots and by the detection of neomycin phosphotransferase II enzymatic activity in kanamycin resistant cells. Integration of vector DNA sequences into plant DNA was demonstrated by Southern blot hybridisation.     

A set of novel Ti plasmid-derived vectors for the production of transgenic plants

Summary We describe in this paper the construction and use of a set of novel Ti plasmid-derived vectors that can be used to produce transgenic plants. These vectors are based on one of two strategies: 1) double recombination into the wild-type Ti plasmid of genetic information flanked by two T-DNA fragments on a wide-host range plasmid; 2) the binary vector strategy. The vector based on the double recombination principle contains a kanamycin resistance gene for use as a plant selectable marker, a polylinker for the insertion of foreign genes, and a nopaline synthase gene. The vector was constructed such that a disarmed T-DNA results from the double recombination event. The binary vector combines several advantageous features including an origin of replication that is stable in Agrobacterium in the absence of selection, six unique sites for insertion of foreign genes, an intact nopaline synthase gene, and a kanamycin resistance marker for selection of transformed plant cells. All of these vectors have been used to produce tobacco plants transformed with a variety of foreign genes.     

Development of a series of gateway binary vectors possessing a tunicamycin resistance gene as a marker for the transformation of Arabidopsis thaliana

We made two series of Gateway binary vectors, pGWBs and R4pGWBs, possessing a UDP-N-acetylglucosamine: dolichol phosphate N-acetylglucosamine-1-P transferase (GPT) gene driven by the nopaline synthase promoter (Pnos) as a tunicamycin resistance marker for the transformation of Arabidopsis thaliana. The reporters and tags employed in this system are sGFP, GUS, LUC, EYFP, ECFP, G3GFP, mRFP, TagRFP, 6xHis, FLAG, 3xHA, 4xMyc, 10xMyc, GST, T7, and TAP. Selection of transformants was successful on plates containing 0.15 mg/L of tunicamycin. These vectors were compatible with existing pGWB and R4pGWB vectors for kanamycin, hygromycin B, and BASTA? selection, and are useful new tools for making transgenic Arabidopsis.     

Carrot (Daucus carota) hypocotyl transformation usingAgrobacterium tumefaciens

Summary Daucus carota hypocotyl sections were transformed withAgrobacterium tumefaciens LBA4404 containing CaMV 35S promoter, -glucuronidase coding sequence and the nopaline synthase (Nos) poly adenylation sequences in Bin 19. Sliced sterile seedling hypocotyl segments were preincubated for 2 days, co-cultivated withAgrobacterium for an additional 2 days, and then transferred to medium containing 100ug/ml of kanamycin and 400ug/ml carbenicillin. In 6 weeks kanamycin resistant calli were obtained in 5.8% of the explants from one variety. Calli were subcultured on solid medium, and in 4 weeks introduced into suspension culture. NPTII and Southern blot analysis confirmed that three selected lines were transformed with 1–3 copies of the GUSII construction. GUS activity in transformants was 5 to 250 fold over background.Abbreviations NPT II neomycin phosphotransferase II - Nos nopaline synthase - GUS -glucuronidase - CaMV cauliflower mosaic virus - 2,4-D 2,4 dichlorophenoxyacetic acid - PMSF phenylmethylsulfonyl fluoride     

Gene rescue in plants by direct gene transfer of total genomic DNA into protoplasts.

To study the possibility of gene rescue in plants by direct gene transfer we chose the Arabidopsis mutant GH50 as a source of donor DNA. GH50 is tolerant of chlorsulfuron, a herbicide of the sulfonylurea class. Tobacco protoplasts were cotransfected with genomic DNA and the plasmid pHP23 which confers kanamycin resistance. A high frequency of cointegration of the plasmid and the genomic DNA was expected, which would allow the tagging of the plant selectable trait with the plasmid DNA. After transfection by electroporation the protoplasts were cultivated on regeneration medium supplemented with either chlorsulfuron or kanamycin as a selective agent. Selection on kanamycin yielded resistant calluses at an absolute transformation frequency (ATF) of 0.8 x 10(-3). Selection on chlorsulfuron yielded resistant calluses at an ATF of 4.7 x 10(-6). When a selection on chlorsulfuron was subsequently applied to the kanamycin resistant calluses, 8% of them showed resistance to this herbicide. Southern analysis carried out on the herbicide resistant transformants detected the presence of the herbicide resistance gene of Arabidopsis into the genome of the transformed tobacco. Segregation analysis showed the presence of the resistance gene and the marker gene in the progeny of the five analysed transformants. 3 transformants showed evidence of genetic linkage between the two genes. In addition we show that using the same technique a kanamycin resistance gene from a transgenic tobacco could be transferred into sugar beet protoplasts at a frequency of 0.17% of the transformants.     

Inactivation of the nopaline synthase gene by double transformation: reactivation by segregation of the induced DNA

Tobacco plants were transformed with derivatives of a binary vector pMON505 and two kanamycin resistant lines that were nopaline positive were selected for second transformation. The plasmids used for the second transformation were derivatives of pMON850 which carries the nopaline synthase gene in addition to a gene for gentamicin resistance. Insertion of each transgene was confirmed by Southern hybridization. Surprisingly, we found that more than 50% of the doubly transformed tobacco plants were nopaline negative. Tobacco plants that were transformed only by the second vector exhibited nopaline accumulation. DNA methylation patterns at the HpaII site in the promoter region of the nopaline synthase gene did not correlate with the nopaline phenotype. In some plant lines, seedlings of the R1 generation which segregated out the second T-DNA insertion recovered the nop⁺ phenotype. These results indicate that nopaline accumulation was inhibited by the presence of the second T-DNA.Abbreviations T-DNA transferred DNA - NPTII neomycin phosphotransferase II - uidA -glucuronidase - Km kanamycin - Gm gentamicin - nop⁺ nopaline positive - nop^– nopaline negative - MS medium, Murashige-Skoog medium     

Promoters active in mammalian cells (pSV40) and in plants (pNOS) permit expression in yeast of the Tn5 APH(3') II gene

Abstract Four plasmids were constructed by associating Escherichia coli and yeast selection markers and replication origins to a structural gene coding for aminoglycoside phosphotransferase (APH(3')) controlled by different flanking sequences. We used the two bacterial genes of Tn5 (APH(3')II) and Tn903 (APH(3')I) as such and the chimeric pSVneo (APH(3')II) and pNOSneo (APH(3')II) constructs, functional in mammalian and plant cells, respectively. Yeast clones resistant to G418 were obtained with all plasmids except with that bearing the bacterial APH(3')II gene. The three plasmids harbouring the functional APH genes, however, conferred different levels of G418 resistance to yeast.     

Production of transgenic soybean lines expressing the bean pod mottle virus coat protein precursor gene

Soybean (Glycine max. Merrill. cv. Fayette) cotyledonary nodes were transformed with bean pod mottle virus (BPMV) coat protein precursor (CP-P) gene via Agrobacterium-mediated transformation. The transformation rate was low, and only five primary transformants derived from five different cotyledons were obtained from 400 original cotyledons. Southern blot hybridization verified the integration of the BPMV CP-P gene. Inheritance and expression of this gene in R₁ plants were also demonstrated. About 30% of R₂ plants derived from one transgenic line showed complete resistance to BPMV infection, as assessed by symptomatology and ELISA, suggesting that homozygous, but not hemizygous, plants exhibit the resistant phenotype.Abbreviations BAP 6-benzyladenine phosphate - BPMV bean pod mottle virus - CP-P coat protein-precursor - CTAB hexadecyltrimethylammonium bromide - DAS-ELISA double antibody sandwich-enzyme-linked immunosorbent assay - IBA indole-butyric acid - kbp kilobase pairs - MES 2-(N-Morpholino)ethanesulfonic acid - NOS nopaline synthase - NPTII neomycin phosphotransferase II - NTP nucleoside triphosphate - PBS phosphate-buffered saline - PCR polymerase chain reaction - PVP polyvinyl pyrrolidone - VPg viral genome-linked protein     

Uptake, integration, expression and genetic transmission of a selectable chimaeric gene by plant protoplasts

Summary Genetic transformation of Nicotiana tabacum protoplasts was achieved by incubation of protoplasts with a plasmid DNA-calcium phosphate coprecipitate, followed by fusion of the protoplasts in the presence of polyvinyl alcohol and subsequent exposure to high pH. A derivative of the plasmid pBR322 containing a chimaeric gene, consisting of the nopaline synthase promoter, the coding region of the aminoglycoside phosphotransferase gene of Tn5 and the polyadenylation signal region of the octopine synthase gene, was used for these transformation experiments. This chimaeric gene confers resistance of transformed plant cells to kanamycin. This novel transformation procedure reproducibly yielded transformants at frequencies of approximately 0.01%. Aminoglycoside phosphotransferase II activity was detected in both transformed calli and in regenerated plants. DNA from some of the transformed clones was analyzed by Southern blot hybridization. The input DNA appears to be integrated into high molecular weight cellular DNA. Genetic analysis of one of the kanamycin resistant plants shows that the chimaeric gene is transmitted to the progeny as a single dominant trait in a Mendelian fashion. As a comparison the input DNA was also introduced into tobacco protoplasts using Agrobacterium tumefaciens and Ti-plasmid derived gene vectors.Dedicated to Professor Georg Melchers to celebrate his 50-year association with the journal     

Intermolecular homologous recombination in plants.

To study DNA topological requirements for homologous recombination in plants, we have constructed pairs of plasmids that contain nonoverlapping deletions in the neomycin phosphotransferase gene [APH(3')II], which, when intact, confers kanamycin resistance to plant cells. Protoplasts isolated from Nicotiana tabacum were cotransformed with complementary pairs of plasmids containing these truncated gene constructs. Homologous recombination or gene conversion within the homologous sequences (6 to 405 base pairs) of the protein-coding region of the truncated genes led to the restoration of the functional APH(3')II gene, rendering these cells resistant to kanamycin. Circular plasmid DNAs recombined very inefficiently, independent of the length of the homologous region. A double-strand break in one molecule only slightly increased the recombination frequency. The most favorable substrates for recombination were linear molecules. In this case, the recombination frequency was positively correlated with the length of the homologous regions. The recombination frequency of plasmids linearized at sites proximal to the deletion-homology junction was significantly higher than when linearization was distal to the homologous region. Vector homology within cotransformed plasmid sequences also increased the recombination frequency.