Construction of Stably Transformed Bm5 and Sf9 Cells Displaying Green Fluorescence by Using Autographa californica Nuclear Polyhedrosis Virus IE1 Gene

Transformed Bm5 or Sf9 cells displaying green fluorescence were constructed by using Autographa californica nuclear polyhedrosis virus (AcNPV) immediate early gene (ie 1). Green fluorescent protein (gfp) gene was introduced under the control of the AcNPV ie 1 promoter to yield expression plasmid pAcIE1-GFP. It was transfected into Sf9 or Bm5 cells and cell clones expressing GFP were selected by fluorescence microscopy. Genomic DNA from transformed cells was isolated and integration of AcNPV ie 1 gene harboring gfp gene was confirmed by PCR using AcNPV ie 1 gene-specific primers. The GFP was successfully expressed in the cytoplasm of insect cells transformed with pAcIEI-GFP and the expressed GFP was maintained during cell division. Furthermore, GFP expression by AcNPV ie 1 promoter in transformed cells was not interfered with viral replication. This suggests that transformed cells displaying foreign gene product by using AcNPV ie 1 promoter will be useful for the diverse applications of the insect cells.     

Transformation of tomato using an Ri plasmid vector

An intermediate vector, pAMNeo10, was constructed containing the replication origin and carbenicillin-resistance gene of pBR322, an homology region to allow insertion into the T_L-DNA of pRiA4 in Agrobacterium A4T, and a chimaeric kanamycin-resistance gene (nop. neoΔ) for identification of T_L-DNA::pAMNeo10 transformed roots. Roots produced by inoculating stem explants of Lycopersicon esculentum, L. hirsutum × L. esculentum (KNVF Rootstock) and L. peruvianum with an exconjugant stain, A4T (pRiA4::pAMNeo10), were resistant to kanamycin at levels that completely inhibit the growth of transformed roots produced with wild-type A4T. When transformed by the exconjugant strain, roots of the three tomato hosts were resistant to different levels of kanamycin, and, in the case of L. peruvianum, regenerated plants were tolerant to much higher levels (10×) of kanamycin than the transformed roots from which they were derived. Kanamycin-resistant transformed roots expressed aminoglycoside phosphotransferase activity, and Southern blotting confirmed the presence of the intermediate vector sequence in transformed roots and in shoots of regenerated plants. T_R-DNA was shown to be present in most transformed roots and regenerated shoots by testing for agropine and mannopine. The application of Ri plasmid vectors to the study of foreign gene expression in plants is discussed.     

Cloning of TPS gene from eelgrass species Zostera marina and its functional identification by genetic transformation in rice

The full-length cDNA sequence (2613 bp) of the trehalose-6-phosphate synthase (TPS) gene of eelgrass Zostera marina (ZmTPS) was identified and cloned. Z. marina is a kind of seed-plant growing in sea water during its whole life history. The open reading frame (ORF) region of ZmTPS gene encodes a protein of 870 amino acid residues and a stop codon. The corresponding genomic DNA sequence is 3770 bp in length, which contains 3 exons and 2 introns. The ZmTPS gene was transformed into rice variety ZH11 via Agrobacterium-mediated transformation method. After antibiotic screening, molecular characterization, salt-tolerance and trehalose content determinations, two transgenic lines resistant to 150 mM NaCL solutions were screened. Our study results indicated that the ZmTPS gene was integrated into the genomic DNA of the two transgenic rice lines and could be expressed well. Moreover, the detection of the transformed ZmTPS gene in the progenies of the two transgenic lines was performed from T₁ to T₄ generations; and results suggested that the transformed ZmTPS gene can be transmitted from parent to the progeny in transgenic rice.     

High yield and stable transformation of the unicellular green alga Acetabularia by microinjection of SV40 DNA and pSV2neo

SV40 DNA and pSV2neo were microinjected into isolated nuclei of Acetabularia mediterranea. The injected nuclei were implanted into anucleate cell fragments of the same species. Such combinations not only survived but also formed progeny. The F₁, F₂ and F₃ generations of these combinations were analyzed. In the case of SV40-treated cells T-antigen was expressed and accumulated in the nuclei of all three generations studied as shown by indirect immunofluorescence. Nuclear exchange experiments revealed expression of the T-antigen only if a transformed nucleus but not if only a transformed cytoplasm was involved. Transformation by pSV2neo, a chimeric gene with a selectable marker was demonstrated by the induction of G-418 resistance as well as immunofluorescence. Genomic DNA was isolated from gametes, originating in cysts from the F₁, F₂ and F₃ generations of injected cells, and subjected to Southern analysis. These experiments demonstrated that both types of DNA are integrated into the host genome.     

Direct gene transfer to cells of a graminaceous monocot

Summary Definitive evidence is presented for the first time for stable gene transfer to cultured cells in a plant of the family Gramineae, Lolium multiflorum (Italian Ryegrass), using DNA transformation of protoplasts from a non-morphogenic cell culture. A construction consisting of expression signals from gene VI of Cauliflower Mosaic virus joined to the aminoglycoside (neomycin) phosphotransferase gene (APH(3)II) from transposon Tn5 conferred resistance to the antibiotic G-418 to cell colonies arising from transformed protoplasts. By demonstrating a tight correlation between the resistant phenotype, the physical presence of the foreign gene and the presence of the active gene product we have shown that these colonies are true transformants and that a gene which is expressed well in dicotyle-denous plants is also expressed in cells of graminaceous monocots.Dedicated to professor Georg Melchers to celebrate his 50-year association with the journal     

Genetic transformation in higher plants

Successful transformation of plant cells has been obtained utilizing vectors and DNA delivery methods derived from the plant pathogen, Agrobacterium tumefaciens. This soil bacterium is capable of transferring a DNA segment (T‐DNA), located between specific nucleotide border sequences, from its large tumor inducing (Ti) plasmid into the nuclear DNA of infected plant cells. The exploitation of the Agrobacterium/Ti plasmid system for plant cell transformation has been facilitated by (1) the construction of modified Agrobacterium strains in which the genes responsible for pathogenicity have been deleted; (2) the design of intermediate vectors containing selectable drug markers for introducing foreign genes into the Ti plasmid and subsequently into plant cells; and (3) the development of efficient in vitro methods for transforming plant cells and tissues with engineered Agrobacterium strains. These modifications have led to the development of a simple, efficient, and reproducible transformation system from which morphologically normal transformed plants can be readily regenerated. The foreign genes are stably maintained and expressed in the resulting plants and are inherited by progeny as typical Mendelian traits. The availability of transformation systems has already facilitated numerous studies on gene expression and regulation in plants and should eventually allow for the modification of various crop species in an agronomically significant manner. The needs and possibilities for the development of alternate vectors and transformation procedures will be discussed.     

Genome engineering using a synthetic gene circuit in Bacillus subtilis

Genome engineering without leaving foreign DNA behind requires an efficient counter-selectable marker system. Here, we developed a genome engineering method in Bacillus subtilis using a synthetic gene circuit as a counter-selectable marker system. The system contained two repressible promoters (B. subtilis xylA (P_xyl) and spac (P_spac)) and two repressor genes (lacI and xylR). P_xyl-lacI was integrated into the B. subtilis genome with a target gene containing a desired mutation. The xylR and P_spac–chloramphenicol resistant genes (cat) were located on a helper plasmid. In the presence of xylose, repression of XylR by xylose induced LacI expression, the LacIs repressed the P_spac promoter and the cells become chloramphenicol sensitive. Thus, to survive in the presence of chloramphenicol, the cell must delete P_xyl-lacI by recombination between the wild-type and mutated target genes. The recombination leads to mutation of the target gene. The remaining helper plasmid was removed easily under the chloramphenicol absent condition. In this study, we showed base insertion, deletion and point mutation of the B. subtilis genome without leaving any foreign DNA behind. Additionally, we successfully deleted a 2-kb gene (amyE) and a 38-kb operon (ppsABCDE). This method will be useful to construct designer Bacillus strains for various industrial applications.     

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.     

Zinc finger nuclease-mediated transgene deletion

A transgene, flanked by zinc finger nuclease (ZFN) cleavage sites, was deleted from a stably transformed plant by crossing it with a second plant expressing a corresponding ZFN gene. A target construct, containing a GUS reporter gene flanked by ZFN cleavage sites, a GFP reporter gene and a PAT selectable marker gene, was transformed into tobacco. Basta^®-resistant plants were regenerated and screened for GUS and GFP expression. A second construct, containing a ZFN gene driven by the constitutive CsVMV promoter and an HPT selectable marker gene, was also transformed into tobacco. Selected T₀ plants were grown to maturity and allowed to self-pollinate. Homozygous target plants, which expressed GUS and GFP, were crossed with homozygous ZFN plants, which expressed the ZFN gene. Numerous GUS-negative plants were observed among the hybrids with one particular cross displaying ~35% GUS-negative plants. Evidence for complete deletion of a 4.3 kb sequence comprising the GUS gene was obtained and sequence confirmed. Co-segregation in F₂ progenies of ‘truncated’ and ‘intact’ target sequences with expected reporter gene phenotypes were observed. Since ZFNs can be designed to bind and cleave a wide range of DNA sequences, these results constitute a general strategy for creating targeted gene deletions.     

A transformation system for the hypotrichous ciliate Stylonychia mytilus

We describe a transformation system for the ciliate Stylonychia mytilus. The neomycin resistance gene from Escherichia coli transposon Tn5, which codes for the enzyme phosphotransferase and confers resistance to the antibiotic G 418, was ligated into macronuclear `gene-size' DNA molecules. Using this recombinant DNA for transformation experiments we show that the gene is replicated and expressed in transformed cells.     

Genetic transformation of cocoa leaf cells using Agrobacterium tumefaciens

Leaf strips from cocoa tree (Theobroma cacao L.) clones ICS-16 and SIC-5 were cocultivated with the supervirulent Agrobacterium tumefaciens strain A281-Kan. A281-Kan contains a wild-type Ti plasmid and an additional plasmid, pGPTV-Kan, which confers kanamycin resistance to transformed plant cells after integration and expression of the neomycin phosphotransferase II (nptII) gene. Transformed cells were selected on callusing medium containing 100 g ml^-1 kanamycin. NptII assays confirmed that kanamycin-resistant cultures of ICS-16 and SIC-5 expressed the nptII gene, whereas control cultures did not. Genomic Southern blot analyses demonstrated single T-DNA insertions into ICS-16 and SIC-5. T-DNA/cocoa DNA border regions from transformed cultures were cloned and sequenced, revealing that in both transformed cell lines, the right T-DNA border was at the 5 end of the 25 bp right border repeat. Cocoa DNA probes from the T-DNA/cocoa DNA insertion sites were used in Southern blot analyses and showed that T-DNA from pGPTV-Kan had inserted into a unique region in ICS-16 and into a repetitive region in SIC-5. This study establishes that foreign genes can be inserted and expressed in cocoa using A. tumefaciens-mediated gene transfer.     

Synthesis and assembly of a cholera toxin B subunit-rotavirus VP7 fusion protein in transgenic potato

A gene encoding VP7, the outer capsid protein of simian rotavirus SA11, was fused to the carboxyl terminus of the cholera toxin B subunit gene. A plant expression vector containing the fusion gene under control of the mannopine synthase P₂ promoter was introduced into Solanum tuberosum cells by Agrobacterium tumefaciens-mediated transformation. The CTB::VP7 fusion gene was detected in the genomic DNA of transformed potato leaf cells by polymerase chain reaction (PCR) amplification methods. Immunoblot analysis of transformed potato tuber tissue extracts showed that synthesis and assembly of the CTB::VP7 fusion protein into oligomers of pentameric size occurred in the transformed plant cells. The binding of CTB::VP7 fusion protein pentamers to sialo-sugar containing GM1 ganglioside receptors on the intestinal epithelial cell membrane was quantified by enzyme-linked immunosorbent assay (ELISA). The ELISA results showed that the CTB::VP7 fusion protein made up approx 0.01% of the total soluble tuber protein. Synthesis and assembly of CTB::VP7 monomers into biologically active pentamers in transformed potato tubers demonstrates the feasibility of using edible plants as a mucosal vaccine for the production and delivery system for rotavirus capsid protein antigens.     

Introduction of Foreign Gene into Small Cell Groups Digested Partial-Enzymically in Rice and Regeneration of Transgenic Plants

Suspension cultures of small cell groups (SCG; ca. 50–100 cells per group) were established from calli of Japonica rice Fang 7 and Hl24. The SCG were partially digested and transformed by plasmid pBll21 harboring the NPT-II (neomycin phosphotransferase) and GUS (betaglucuronidase) genes. Plasmid DNA was introduced into cells' by PEG, electroporation and PEG plus electroporation. NTP-II and GUS activity assay showed that the report genes were expressed in transformed cells. Transgenic plants were regeneiated possessing GUS activity due to the integration of intact foreign DNA into their genome as evidanced by hybridization. The results prove that the partially digested SCG is a potential, feasible system as receptor for gene transfer, especially for plants which are difficult for protoplast culture and plant regeneration from protoplasts.     

Silicon carbide fiber-mediated DNA delivery into plant cells

Summary Silicon carbide fiber-mediated delivery of DNA into intact plant cells was investigated. Black Mexican Sweet (BMS) maize (Zea mays) and tobacco (Nicotiana tabacum) suspension culture cells were vortexed in the presence of liquid medium, plasmid DNA encoding -glucuronidase (GUS), and silicon carbide fibers. Penetration of BMS cells by the silicon carbide fibers was observed by scanning electron microscopy of vortexed cells. Following fiber and DNA treatment, BMS cells transiently expressed GUS activity at a mean frequency of 139.5 units (one unit = one blue cell or one colony of blue cells) per sample. Treated tobacco cells expressed an average of 373 GUS units per sample. Untreated controls did not exhibit GUS activity. These results indicate that the silicon carbide fibers-vortex procedure can be used to rapidly and inexpensively deliver foreign DNA into intact plant cells for investigations of transient gene expression.Abbreviations BMS Black Mexican Sweet maize suspension cultures - MS Murashige and Skoog salts - GUS -glucuronidase - 2,4-D 2,4 dichlorophenoxyacetic acid     

Electroporation: application to human lymphoid cell lines for stable introduction of a transactivator gene of human T-cell leukemia virus type I.

Conditions were developed for stable introduction of foreign DNA into human lymphoid cell lines by electroporation. To introduce stably the p40 gene of human T-cell leukemia virus type I (HTLV-I) into the human lymphoid cell line Jurkat, the p40 expressing plasmid, pMAXRHneo-1, which carries the neo resistant gene, was transfected into Jurkat cells at a voltage of 2500 V and capacitance of 21.7 microF, and stable transformants were screened for neo (G418) resistance. The frequency of transformants was more than one per 2 x 10(5) cells used initially. Clones that were resistant to G418 were shown to have the p40 gene integrated into the host genome and to express mRNA and protein from the introduced plasmid. Expression of p40 in the transformed Jurkat cells was also confirmed by testing the trans-activating effect of HTLV-I enhancer by p40. High frequencies of stable transformations of 10(-4) to 10(-6) were also reproducibly obtained by electroporation of the human T cell lines HSB-2 and TALL-1, a human B cell line Raji, a human monocytic cell line U937, and a human erythroleukemia cell line K562. These results demonstrate that electroporation is a very efficient method for introducing foreign DNA into human lymphoid cell lines.     

Development of DNA-mediated transformation systems for plants

The genetic engineering of plants by DNA-mediated gene transfer requires that efficient transformation systems be developed. Considerable progress has been made in manipulating the Ti plasmid of Agrobacterium tumefaciens as a vehicle for delivery of foreign genes into protoplasts of dicotyle-donous plants. Part of the Ti plasmid, the T-DNA, can be incorporated into the genome of the host cell; the T-DNA can carry a foreign DNA sequence which co-integrates with it; under normal conditions, the tumorigenic-causing portion of the T-DNA can be inactivated so that transformed protoplasts can be regenerated and T-DNA with an inserted foreign gene can be stably maintained during regeneration, meiosis and gamete formation. A foreign gene has yet to be expressed in regenerated plants although a T-DNA gene for opine synthesis can function in regenerates. Developing a more ubiquitous transformation system for monocotyledons is further from fruition. Based on transformation systems for simple eukaryotic organisms, it is reasonable to expect that a DNA vector which is capable of amplifying a novel plant gene and which contains both a drug resistance marker to facilitate the selection of transformed plant protoplasts and a species-specific autonomously replicating sequence to ensure the stable maintenance of the input gene in the recipient cell can be constructed.     

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     

根癌农杆菌介导的乙肝表面抗原基因对烟草的转化

构建了植物表达载体pBRSAg,该载体具有完整的植物表达元件,CaMV35S启动子、农杆菌T-DNA左右边界、植物报告基因gus和植物选择标记基因hpt,适用于农杆菌的转化;通过冻融法将重组质粒pBRSAg转入根癌农杆菌LBA4404中,利用农杆菌介导法转化烟草叶盘,经筛选培养获得烟草植株。抗性植株经GUS染色和PCR检测为阳性,初步表明乙肝表面抗原基因在烟草中得到表达。