Transformation of potato (Solanum tuberosum) using particle bombardment

Internodes, leaves and tuber slices from potato (Solanum tuberosum), genotype 1024-2, were subjected to particle bombardment. Transient expression was optimized using the uidA and the luc reporter genes that encode #-glucuronidase (GUS) and luciferase, respectively. Stable transformation was achieved using the neomycin phosphotransferase (nptII) gene, which confers resistance to the antibiotic kanamycin. The influence of biological parameters (tissue type, growth period before bombardment, pre- and post-bombardment osmoticum treatment) and physical parameters (helium pressure, tissue distance) that are known to possibly affect stable transformation were investigated. Putative transgenic plants, which rooted in media containing kanamycin, were obtained from all of the tissues tested although there were large differences in the efficiency: internodes (0.77 plants per bombarded explant), microtuber slices (0.10 plants per bombarded explant) and leaves (0.02 plants per bombarded explant). Southern blot analysis of putative transgenic plants confirmed the integration of the transgenes into plant DNA. The results indicate that an efficient particle bombardment protocol is now available for both transient and stable transformation of potato internodal segments, thus contributing to an enhanced flexibility in the delivery of transgenes to this important food crop.     

Using firefly luciferase to identify the transition from transient to stable expression in bombarded wheat scutellar tissue

Transformation of wheat by the biolistic procedure is unpredictable and inefficient. To gain insight into the fate of transgenes introduced into wheat scutellar tissue by particle bombardment, the expression of the firefly luciferase gene was followed using low‐light video imaging. Luciferase expression can be detected as early as 40 to 50 min after bombardment. After 48 h, the levels of transient expression in individual scutella fall rapidly, becoming undetectable 10 to 20 days later. Luciferase activity was observed to recover in a small percentage of the material and it was from this material that transformed plants, stably expressing luciferase, were recovered. We concluded that the calluses which recover luciferase expression are stably transformed and we have termed the transition period between transient and stable expression the transformation boundary. The percentage of scutella displaying luciferase activity, as measured at 30 days post‐bombardment, was judged a realistic measure of the efficiency of the transformation procedure. The results of our experiments suggest that the selection and regeneration of plants were not major factors contributing to the poor transformation efficiencies associated with biolistic transformation. The results demonstrate that luciferase can be used to assess rapidly and quantify the efficiency of the transformation procedure without the need to produce transformed plants. This will allow different procedures to be rapidly assessed and compared and should provide valuable insight into the conditions required to improve the efficiency of DNA integration and stable expression in species recalcitrant to transformation.     

The firefly luciferase gene as a non-invasive reporter for Dendrobium transformation

Here a screening method is described for transformed tissues and transgenic plants of Dendrobium (Orchidaceae) using the firefly luciferase gene ( luc ) as a combined marker/reporter gene. Protocorm-likebodies (PLB) were bombarded with tungsten particles (1.3 µm) coated with plasmids carrying a 35S-luc chimeric gene. Three weeks after bombardment 1 mM luciferin was added to the tissues and transformed cells were identified by virtue of their bioluminescence as monitored by low-light video microscopy in combination with a real-time photon imaging technique. Transformed tissues were excised, allowed to proliferate, and then subjected to a second round of screening. After three rounds of growth and screening, transformed Dendrobium tissues expressing luciferase were used to generate transgenic plants. Southern blot analysis of several transgenic lines confirmed the integration of the luciferase gene into the orchid genome. It is thought that this procedure can be used for transformation of not only orchids but other species as well.     

Analysis of particle bombardment parameters to optimise DNA delivery into wheat tissues

 The objective of this study was to identify the major parameters controlling DNA delivery by particle bombardment to wheat (Triticum aestivum L.) scutellum and inflorescence tissue. The main factors studied were the DNA/gold precipitation process, bombardment parameters and tissue culture variables. Efficiency of DNA (uidA gene) delivery was assessed by scoring transient GUS expression in bombarded tissues. Of the parameters analysed, amount of plasmid DNA, spermidine concentration, presence of Ca⁺⁺ ions, calcium chloride concentration, amount of gold particles, gold particle size, acceleration pressure, chamber vacuum pressure, bombardment distance, osmotic conditioning of tissues and type of auxin had a clear influence on transient gene expression. A bombardment procedure suitable for elite wheat varieties was developed which allowed high-efficiency DNA delivery combined with reduced damage to target tissues. Received: 6 May 1998 / Revision received: 10 August 1998 / Accepted: 2 February 1999     

A comparison of methods for direct gene transfer into maize (Zea mays L.)

Summary Techniques for transforming intact tissues of cereals were evaluated for their efficacy in transforming immature embryos and Type II callus of maize (Zea mays L.). The techniques used were particle bombardment, tissue electroporation, tissue electrophoresis, and silicon carbide fibers. Each method was assessed in terms of transient β-glucuronidase (GUS) expression. High levels of GUS expression were observed in A188 Type II callus using both tissue electroporation and particle bombardment, with means of 417.8 and 954.5 blue expression units (beu) per g fresh weight (FW) callus, respectively. Only particle bombardment resulted in high transient gene expression in immature embryos, with a mean transformation frequency of 34.8 b.e.u. per embryo. Very low levels of GUS expression were achieved with silicon carbide-mediated gene transfer, even when employing tissues used in the original publication (Black Mexican Sweet suspension cells). GUS expression was not obtained following tissue electrophoretic gene delivery.     

Quantitative bioluminescence imaging of transgene expression in vivo

Bioluminescent imaging (BLI) is a widely used in vivo method to determine the location and relative intensity of luciferase expression in mice. Luciferase expression is observed following an i.p. dose of d-luciferin, resulting in bioluminescence that is detected in anesthetized mice by a charge-coupled device camera. To establish whether BLI could be used as a quantitative measurement of non-viral-mediated luciferase expression, precise quantities of plasmid DNA encoding the luciferase gene were hydrodynamically dosed in mice. The results established a linear correlation between the DNA dose and the BLI response measured in liver which spanned five orders of magnitude. The level of luciferase expression was found to be a direct function of d-luciferin dose. The time course of luciferase expression and the influence of multidosing of substrate were measured by BLI. The recovery of luciferase from the liver of hydrodynamically dosed mice allowed calibration of the BLI measurements. The results establish BLI's limit-of-detection at 20 pg of luciferase per liver following a hydrodynamic dose of 100 pg of plasmid DNA. These results demonstrate that BLI is both sensitive and linear and should allow for the direct comparison of the efficiency of gene transfer vectors that target the liver.     

Development of the particle inflow gun for DNA delivery to plant cells

Summary A simple and inexpensive particle bombardment device was constructed for delivery of DNA to plant cells. The Particle Inflow Gun (PIG) is based on acceleration of DNA-coated tungsten particles using pressurized helium in combination with a partial vacuum. The particles are accelerated directly in a helium stream rather than being supported by a macrocarrier. Bombardment parameters were partially optimized using transient expression assays of a ß-glucuronidase gene in maize embryogenic suspension culture and cowpea leaf tissues. High levels of transient expression of the ß-glucuronidase gene were obtained following bombardment of embryogenic suspension cultures of corn and soybean, and leaf tissue of cowpea. Stable transformation of embryogenic tissue of soybean has also been obtained using this bombardment apparatus.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - PCV packed cell volume - GUS ß-glucuronidase - NOS nopaline synthase Salaries and research support were provided by State and Federal funds appropriated to OSU/OARDC and USDA-ARS. Mention of trademark of proprietary products does not constitute a guarantee or warranty of the product by OSU/OARDC or USDA, and also does not imply approval to the exclusion of other products that may also be suitable. Journal Article No. 34-92     

Deletion analysis of pollen-expressed promoters

Summary We have used microprojectile bombardment of tobacco pollen to study the DNA sequences involved in the expression of pollen-expressed genes. Promoter-reporter gene fusions constructed with the promoters of three different pollen-expressed genes from tomato (LAT52, LAT56, and LAT59) and either theβ-glucuronidase or luciferase reporter genes were assayed by bombarding hydrated tobacco pollen with the gene constructs precipitated onto tungsten microprojectiles. Reporter gene expression can be assayed within 30 min, with the maximal level of expression between 6 and 12 h after bombardment. By constructing and assaying promoter deletion derivatives, we have been able to delimit regions of the promoters that are necessary for high level expression in pollen. We also demonstrate that results with this transient expression system parallel the expression levels seen in pollen from stably transformed transgenic plants. The microprojectile bombardment assay can be used to rapidly test constructs for pollen expression beforeAgrobacterium-mediated plant transformation. Furthermore, it may be possible to adapt the microprojectile bombardment technique to achieve stable transformation of pollen. Presented in the Session-in-Depth Genetic Transformation and Genetic Analysis Using Microprojectile Bombardment at the 41st Annual Meeting of the Tissue Culture Association, Houston, Texas, June 10–13, 1990. This work was supported by the U.S. Department of Agriculture, Washington, DC, ARS CRIS 5335-22230-002-00D, and by the NSF Center for Plant Developmental Biology, UC-Berkeley, DIR-8719933.     

High-efficiency,microprojectile-mediated cotransformation of sugarcane,using visible or selectable markers

Transient expression of the maize anthocyanin regulatory elements,R andC1, was used to optimise parameters for microprojectile-mediated delivery of DNA into sugarcane embryogenic callus. Osmotic treatment of target tissues and particle acceleration in a high-pressure helium pulse increased the frequency of transient expression to 5–8×10³ cells per bombardment, with minimal tissue damage. An average of 0.34% of transiently expressing cells developed into stably transformed, anthocyanin-pigmented proembryoids which subsequently regenerated into plantlets. However, constitutive expression ofR andC1 proved deleterious, and no anthocyanin-pigmented plant survived beyond 3 cm in height. We also compared selective subculture of callus portions showing luciferase activity with antibiotic selection on medium containing G418 or phosphinothricin, upon bombardment of callus with constructs driving strong expression ofluc, aphA orbar genes. Selective subculture based on luciferase activity enabled recovery of 1.4±0.5 independent transgenic plants per bombardment, compared to 19.8±3.7 independent transgenic plants per bombardment from an optimised G418 selection regimen, and no transformed plants from phosphinothricin selection. Whenluc andaphA on separate plasmids were coprecipitated onto microprojectiles before bombardment, 67–79% of callus lines selected for G418 resistance also showed luciferase activity detectable under a low-light camera. Southern analysis confirmed a very high cotransformation frequency, with variable copy numbers of introduced genes. The high efficiencies of gene transfer, selection and cotransformation in the optimised system, coupled with the simple initiation and regeneration of embryogenic callus, provide an effective tool for practical genetic transformation of sugarcane.     

A simple and effective method for protein subcellular localization using <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of onion epidermal cells

A modified Agrobacterium-mediated transformation protocol has been successfully used for transient expression of the intrinsically fluorescent proteins and their fusion proteins in onion epidermis. The mean of the transformed cells rate per peel is about 10.5±0.9%, while that of the particle bombardment method is at the range 2.0±0.4%. To compare with the prevailing method of micro-projectile bombardment, the modified Agrobacterium-mediated transformation may provide with higher efficiency and even more simplified manipulability on a lower budget.     

Improvement of plant regeneration and GUS expression in scutellar wheat calli by optimization of culture conditions and DNA-microprojectile delivery procedures

Summary Genetic transformation of cereals by direct DNA delivery via microprojectile bombardment has become an established procedure in recent years. But the derivation of functional transgenic plants, especially in wheat, is still problematic, mainly due to low efficiency of DNA delivery and the reduced regeneration capability of microprojectile-bombarded tissue. We focussed on these two aspects and found that the regeneration of scutellar calli of wheat can be rendered highly efficient and considerably accelerated by a liquid culture phase in screen rafts. We also found that the expression of a reporter gene following DNA delivery by microprojectile can be improved by maintaining the scutellar calli in 0.25 M mannitol before and after bombardment, by bombardment in the presence of silver thiosulfate and Ca(NO₃)₂ (rather than CaCl₂) and by the elimination of spermidine from the DNA/microprojectile mixture. A protocol that includes all these features leads to several-fold higher transient expression of the reporter gene than have previously published procedures.     

Transient expression of a reporter gene in bulbscales and immature embryos of three Lilium species is affected by 5'upstream sequences and culture conditions

In Lilium , a transformation system has not yet been developed. For efficient selection of cells expressing transferred genes following particle bombardment, the effects of 5'upstream regions on the transient expression of the β-glucuronidase gene ( gusA ) were estimated in bulbscales and immature embryos of lily. When four plasmids having the gusA gene under the control of the cauliflower mosaic virus (CaMV) 35S, maize alcohol dehydrogenase gene and rice actin gene ( Actl ) promoters, and the castor bean catalase introm were introduced by particle bombardment, the patterns of transient expression in the bulbscales showed differences among three Lilium species, L. x formolongi, L. dauricum and L. japonicum . In immature embryos of L x formolongi , transient expression was significantly influenced by age of embryos after self-pollination, duration of culture before bombardment, and culture conditions. Moreover, the transient gusA expression driven by six different 5'upstream regions, including the maize ubiquitin gene promoter and a modified CaMV 35S promoter were compared in both bulbscales and immature embryos. Use of the Actl and modified CaMV 35S promoters resulted in the greatest number of cells that transiently expressed gusA in both types of tissue of L. x formolongi . These two promoters are efficient for use in lily transformation.     

A protocol for consistent, large-scale production of fertile transgenic rice plants

A protocol for consistent production of fertile transgenic rice plants was established utilizing microparticle bombardment of embryogenic tissues (Oryza sativa L. japonica cv. Taipei 309). This system has been employed to produce several thousand independently transformed plant lines carrying the hygromycin phosphotransferase (hph) gene and various genes of interest. The most efficient target tissue was highly embryogenic callus or suspension cell aggregates, when they were given an osmotic pre- and post-transformation treatment of 0.6 m carbohydrate. By optimizing the age of the tissue at the time of gene transfer and applying an improved selection procedure, transgenic plants were recovered in 8 weeks from the time of gene transfer, at an average of 22.3±9.7 per 100 calli and 22.4±8.0 plant lines per dish of suspension cell aggregates. This system has facilitated a number of studies using rice as a model for genetic transformation and will enable the large-scale production of transgenic rice plants for genomic studies. Received: 12 March 1998 / Revision received: 5 May 1998 / Accepted: 15 May 1998     

The Biolistic® PDS-1000/He device

This paper describes the design, operation, and performance of the Biolistic® PDS-1000/He device, which is used to transform living organisms with foreign DNA. DNA is delivered to cells in association with microscopic metal particles, called microcarriers, that are propelled at high velocity towards target tissues. The microcarriers are accelerated on a plastic cylinder, called a macrocarrier, which is driven by a shock wave of helium gas. The effectiveness of the PDS-1000/He device was tested by bombarding tobacco cell suspension cultures with microcarriers that were coated with plasmid DNA containing the B-glucuronidase (GUS) and neomycin phosphotransferase II (NPTII) genes. Two days after bombardment, there were 6835 ± 594 cell clusters per petri plate that expressed the GUS gene. Kanamycin resistant colonies were observed 6 to 8 weeks after bombardment, at a rate of 838 ± 134 colonies per bombarded plate.     

Transient expression of the β-glucuronidase gene in tissues ofArabidopsis thaliana by bombardment-mediated transformation

Particle bombardment has proved to be useful for the transformation of plants. We have previously reported successful transient expression of the beta-glucuronidase (GUS) gene in cultured plant cells and tissues and the stable transformation of various plants using a pneumatic particle gun. In this chapter, we describe transient expression of the GUS gene in Arabidopsis thaliana leaves and roots using the pneumatic particle gun.     

影响籼稻基因枪法遗传转化效果的几个因素的研究（简报）

Four factors influence on transformation of indica rice, which were high osmotic treatment; different explant as the target tissue; pressure of rupture disk and quantity of plasmid DNA, were investigated in this experiment. High osmotic treatment of target tissue prior to and after bombardment increased 3.2-fold for Gus transient expression than control. The best treatment of high osmotic was that the target tissues were kept in the target-bed medium which contained 0.4-0.6 mol/L sorbitol and manitol each for 4 h prior to bombardment and for 16 h after bombardment. Four explants: scutellum from mature seed, young panicle, embryogenic callus and suspension cells of indica rice were tested as target explant by particle bombardment. The results of Gus transient showed that the highest expression was scutellum and for other three explants, the order from high to low was young panicle, embryogenic callus and suspension cell. Transgenic plants were obtained from all of the explants except young panicle. For the pressure of rupture disk on transformation, 1100 psi or 1300 psi of the pressure of rupture disk were best one for the transformation and higher than 1300 psi could damage the target tissue which become black and died in the following culture duration. For the quantity of plasmid DNA, the results showed that 0.83 microgram of plasmid DNA per bombardment was preferred for the transformation of indica rice.     

Luciferase as a reporter gene for transformation studies in rice (Oryza sativa L.)

Transformed rice plants of var `TN1' were regenerated from immature embryos following particle bombardment with a construct containing the firefly luciferase gene as a reporter gene and the hygromycin resistance gene as a selectable marker. Expression of the luciferase gene in the presence of the substrate luciferin was visualised in the calli derived from bombarded immature embryos and in the leaves and roots of the regenerated transformed plants using a low light imaging system (luminograph). Embryogenic callus proliferation and plant regeneration were unaffected by luciferin treatment and luminograph screening. The quantitative Luc assay using samples of leaf tissue from the segregating generations gave early information about the homozygous and hemizygous state of the luc transgene. Received: 25 August 1998 / Revision received: 2 November 1998 / Accepted: 13 November 1998     

Production of transgenic cassava (Manihot esculenta Crantz) plants by particle bombardment using luciferase activity as selection marker

Cassava embroids derived from friable embryogenic callus of the genotype TMS60444 were bombarded with DNA of the constructs pJIT100 or pJIT64. Both constructs contain the non-invasive reporter gene luciferase from firefly driven by the CaMV 35S promoter. The influence of several particle gun machine parameters and pretreatment of plant material on transient luciferase activity were studied to determine the most essential conditions for stable transformation. Two weeks after bombardment pieces of friable calli with luciferase activity were selected. In total, 67 independent selected calli with luciferase activity (spots), derived from five different experiments, were further cultured either in liquid or on solid medium. Per plate or flask one spot was cultured. In subsequent selection rounds all spots of one individual plate or flask were cultured as one individual group. In this way different transformation events were separated and multiplied.Eight weeks after bombardment 34 cultures still contained luciferase activity. The mean number of luciferase spots per culture had increased from 1 to 4.6 spots in liquid and to 2.5 spots on solid medium. After two more months of subsequent culture and luciferase selection presence of the construct in these cultures was confirmed at the molecular level using the polymerase chain reaction assay and Southern analysis.Friable embryos derived from four transformation events were cultured for maturation. Between 3% and 21% of the mature embryos of the different transformation events were luciferase-positive. After multiplication of the luciferase-positive mature embryos by secondary somatic embryogenesis they were germinated. The plantlets analysed contained one to several copies of the inserted DNA. The method presented enables the transformation of this particular cassava genotype, thus allowing the genetic improvement of this important tropical crop by transgenesis.