Optimised DNA delivery into Coffea arabica suspension culture cells by particle bombardment

An optimised bombardment protocol to introduce DNA into Coffea arabica suspension culture cells was developed. Osmotic preconditioning of cells and physical bombardment parameters including Helium pressure, gap and target distances affecting DNA delivery were evaluated by monitoring transient expression of the uidA gene driven by the CaMV35S promoter. The highest transient GUS expression was obtained when cells were subjected to a 0.5 M mannitol–sorbitol pre-treatment 4 h prior to bombardment and a Helium pressure of 1550 psi, a 9-mm gap distance and 12 cm target distance as physical bombardment parameters. The optimised protocol was tested with two coffee promoters: -tubulin and arabicin, which presented similar activity to the CaMV35S promoter in suspension culture cells by fluorometric GUS assays. GUS expression was reduced in bombarded tissue culture leaves, and only the CaMV35S and arabicin promoters showed histochemical activity in coffee endosperms. This is the first report of optimization of particle bombardment on coffee suspension culture cells, equivalent CaMV35S activity for a coffee promoter and transient -glucoronidase expression in coffee endo-sperms.     

Stable transformation of the food yam Dioscorea alata L. by particle bombardment

Summary A biolistic particle gun was used to deliver genetic material into intact yam cells. Cultured suspension cells of D. alata were bombarded with microprojectiles coated with pBI221.2 DNA and histochemical assays were carried out to show transient GUS expression in bombarded cells. Stably transformed D. alata cells were recovered from cultured cells after bombardment with microprojectiles coated with pRT99gus harbouring both the nptII and uidA genes. Bombarded cells were selected on a medium containing geneticin (G418). Two months after bombardment, calli resistant to G418 were assayed for GUS expression. There was a 100% correlation between resistance to G418 and GUS expression. From these calli, four cell lines were established and GUS activity in each line was determined fluorometrically. The use of a specific GUS inhibitor showed that the GUS activity was due to the introduced uidA gene rather than to any intrinsic GUS-like activity originating from the plant. Incorporation of the introduced DNA into the plant genomic DNA was confirmed by Southern analysis.Abbreviations GUS -glucuronidase - MU 4-Methylumbelliferone - MUG 4-Methylumbelliferyl--D-glucuronide - PVP Polyvinylpyrrolidone - SDS Sodium dodecyl sulphate - TAE Tris-acetate-EDTA buffer - X-Gluc 5-Bromo-4-chloro-3-indolyl--D-glucuronide     

Effects of tissue type and promoter strength on transient GUS expression in sugarcane following particle bombardment

Effects of tissue type and promoter strength on transient GUS expression in the sugarcane (Saccharum spp. hybrids) cultivar NCo 310 were evaluated following microprojectile bombardment of leaf explants. GUS expression was histochemically or fluorometrically measured 48 h after delivery of the uidA gene. High levels of GUS expression were obtained in leaf segments isolated from young, expanding sugarcane leaves cultured for 1, 3, or 6 d prior to bombardment. The promoter derived from the maize ubiquitin 1 gene (Ubi-1) produced significantly more GUS foci and higher GUS activity levels compared to the recombinant Emu, rice actin 1 (Act1), and CaMV 35S promoters. Our transient expression system should facilitate efforts to identify promoters and elements which will regulate desired gene expression patterns in sugarcane and aid in development of an efficient stable transformation system.Abbreviations Act1 rice actin 1 gene - CaMV cauliflower mosaic virus - GUS ß-glucuronidase - Ubi-1 maize ubiquitin 1 gene - uidA GUS gene - X-Glu 5-bromo-4-chloro-3-indoylglucuronide     

Transformation of sugar beet cell suspension cultures

Summary A sugar beet transformation method was developed using particle bombardment of short-term suspension cultures of a breeding line FC607. Highly embryogenic suspension cultures derived from leaf callus were bombarded with the uidA (gusA) reporter gene under the control of either the osmotin or proteinase inhibitor II gene promoter, and the npt II selectable marker gene. Transient uidA expression was visualized as 500–4000 blue units per 200 mg of bombarded cells 2 d after bombardment. Stably-transformed calluses were recovered on both kanamycin and paromomycin media. The greatest number of GUS (+) calluses was obtained when 50 or 100 mgl⁻¹ of kanamycin was applied 2 d after transformation for 3–5 wk, followed by either no selection or reduced levels of the antibiotic. PCR analyses of the GUS (+) callus lines revealed the expected size fragment for uidA and npt II genes. Stable incorporation of the uidA gene into the genome was confirmed by Southern blot analyses. Several transformed embryos were detected by histochemical β-glucuronidase (GUS) staining.     

Stable transformation and long-term expression of the gusA reporter gene in callus lines of perennial ryegrass (Lolium perenne L.)

Stable transformation of perennial ryegrass (Lolium perenne L.) was achieved by biolistic bombardment of a non embryogenic cell suspension culture, using the hpt and gusA gene. The transformation yielded on the average 5 callus lines per bombardment (1.4×10⁶ cells). Stable integration of the genes into the plant genome was demonstrated by Southern analysis of DNA, isolated from hygromycin-resistant callus lines. The gusA reporter gene, which was regulated by the constitutive promoter of the rice gene GOS2, was expressed in both transient and stable transformation assays, indicating that this promoter is suitable for expression of a transferred gene in perennial ryegrass. Long-term GUS expression was observed in ca. 40% of the callus lines, whereas the other callus lines showed instability after 6 months and 1 year of culture.     

Activity of a maize ubiquitin promoter in transgenic rice

We have used the maize ubiquitin 1 promoter, first exon and first intron (UBI) for rice (Oryza sativa L. cv. Taipei 309) transformation experiments and studied its expression in transgenic calli and plants. UBI directed significantly higher levels of transient gene expression than other promoter/intron combinations used for rice transformation. We exploited these high levels of expression to identify stable transformants obtained from callus-derived protoplasts co-transfected with two chimeric genes. The genes consisted of UBI fused to the coding regions of the uidA and bar marker genes (UBI:GUS and UBI:BAR). UBI:GUS expression increased in response to thermal stress in both transfected protoplasts and transgenic rice calli. Histochemical localization of GUS activity revealed that UBI was most active in rapidly dividing cells. This promoter is expressed in many, but not all, rice tissues and undergoes important changes in activity during the development of transgenic rice plants.     

Optimization of wheat co-transformation procedure with gene cassettes resulted in an improvement in transformation frequency

Genetic manipulation using gene cassettes was applied to the elite wheat variety EM12 via particle bombardment, which allows an improvement in transformation frequency. We simultaneously transferred to wheat immature embryos with two non-linked genes, gus and bar, on either separate gene cassettes or one plasmid. The linear gene cassettes were excised and purified by restriction digestion of the plasmid, and consisted of promoters, open reading frames and terminators. No difference was observed in GUS transient expression of between gene cassettes and single whole plasmid. However, the stable transformation frequency was significantly increased to 1.1% using gene cassettes, compared with 0.4% when using single plasmid. Procedures of the efficient co-transformation with gene cassettes were developed. Factors influencing on the transformation frequency were also studied in order to optimize the procedure. These were acceleration pressure, target distance, gold particle size, the quantity ratio of gene cassettes and the age of target explants. Based on the transient and stable expression of the gus gene cassettes, optimization of transformation parameters improved the reproducibility of transformation in the elite wheat variety.     

Comparative analysis of transgenic rice plants obtained by Agrobacterium-mediated transformation and particle bombardment

We compared rice transgenic plants obtained by Agrobacterium-mediated and particle bombardment transformation by carrying out molecular analyses of the T₀, T₁ and T₂ transgenic plants. Oryza sativa japonica rice (c.v. Taipei 309) was transformed with a construct (pWNHG) that carried genes coding for neomycin phosphotransferase (nptII), hygromycin phosphotransferase (Hyg^r), and -glucuronidase (GUS). Thirteen and fourteen transgenic lines produced via either method were selected and subjected to molecular analysis. Based on our data, we could draw the following conclusions. Average gene copy numbers of the three transgenes were 1.8 and 2.7 for transgenic plants obtained by Agrobacterium and by particle bombardment, respectively. The percentage of transgenic plants containing intact copies of foreign genes, especially non-selection genes, was higher for Agrobacterium-mediated transformation. GUS gene expression level in transgenic plants obtained from Agrobacterium-mediated transformation was more stable overall the transgenic plant lines obtained by particle bombardment. Most of the transgenic plants obtained from the two transformation systems gave a Mendelian segregation pattern of foreign genes in T₁ and T₂ generations. Co-segregation was observed for lines obtained from particle bombardment, however, that was not always the case for T₁ lines obtained from Agrobacterium-mediated transformation. Fertility of transgenic plants obtained from Agrobacterium-mediated transformation was better. In summary, the Agrobacterium-mediated transformation is a good system to obtain transgenic plants with lower copy number, intact foreign gene and stable gene expression, while particle bombardment is a high efficiency system to produce large number of transgenic plants with a wide range of gene expression.     

Gene transfer to maize male reproductive structure by particle bombardment of tassel primordia

Summary Maize (Zea mays L.) tassel primordia were used as a target for particle bombardment, to assess the possibility of introducing foreign DNA into male reproductive structures. Transient expression of the -glucuronidase gene (GUS) or anthocyanin marker genes (C1 and B-Peru) driven by the CaMV 35S promoter was obtained in tassel primordia 24h after bombardment. Gold particles coated with DNA reached stamen primordia tissues, which eventually form the anthers and pollen. Bombarded tassels were also cultured in vitro and GUS activity was detected in the vascular tissue of mature anthers that developed within 4 weeks. This new approach represents a preliminary step toward pollen mediated transformation.     

Gene transfer to inflorescence and flower meristems using ballistic micro-targeting

Direct gene transfer to floral meristems could contribute to cell-fate mapping, to the study of flower-specific genes and promoters, and to the production of transgenic gametes via the transformation of sporogenic tissues. Despite the wide potential of its applications, direct gene transfer to floral meristems has not been achieved so far because of the lack of suitable technology. We show in this paper that ballistic micro-targeting is the technique of choice for this purpose, and in this way, we were able to transfer genes efficiently into excised wheat immature spikes. Particle size was adjusted for optimal penetration into the L1 and L2 cell layers of the spikes with limited cell damage. Spikes at different developmental stages were shot either with a plasmid containing two genes involved in anthocyanin biosynthesis or with a plasmid bearing the uidA (-glucuronidase) gene. The transient expression of these marker genes was observed in the different developmental stages tested and in cells of both the L1 and the L2 layers. The transient expression of the uidA gene was significantly increased when the sucrose concentration in the culture medium was increased from 0.06 to 0.52 M. At the highest concentration, 100% of the targeted spikes expressed the uidA gene, with an average of 69 blue cells per spike. Twelve days after microtargeting, multicellular sectors showing transgene expression and containing up to 17 cells were found in 85% of the shot immature inflorescences. This indicated that targeted cells survived particle bombardment. Sectors were found in primordia of both vegetative and reproductive organs.     

Transient expression from microprojectile-mediated DNA transfer in pinus taeda

Summary Transfer of plasmid DNA to Pinus taeda L. (loblolly pine) cotyledon cells by microprojectile bombardment has been demonstrated using beta-glucuronidase (GUS). GUS histochemical staining indicated active enzyme in localized centers (blue spots) 24 hours after bombardment. GUS expression declined during subsequent culture, but remained detectable in meristematic tissue 62 days post-bombardment, however, transgenic shoots were not recovered. Localized GUS expression events resulted predominantly from single-cell events containing one microprojectile. The staining pattern was complex, with indigo found both in the central target cell and in adjacent cells. Cellular damage sustained by GUS-positive cells ranged from undetectable to sufficiently extensive to cause cell death. Microprojectile bombardment provides a useful method to assay transient gene expression in loblolly pine and has potential for the production of transgenic plants in pine.     

Stable chloroplast transformation in Chlamydomonas reinhardtii using microprojectile bombardment

The chloroplasts ofChlamydomonas reinhardtii were transformed using a vector (paadAGUS4.1) that contained a spectinomycin-resistance gene (aadA) as a selectable gene, and bacterialuidA (GUS) as a reporter gene, and pea 4.1 kb D-loop containing sequence. The vector was introduced into the alga through particle gun bombardment. The transformed colonies were screened for the presence of foreign genes by Southern hybridization using GUS,aadA and 4.1 pea Ori probes. Expression ofaadA and GUS genes was detected in all colonies that were grown on spectinomycin. A detailed restriction analysis followed by southern hybridization of total genomic DNA using pea 4.1 kb D-loop as probe indicated that the D-loop sequence can serve in site-specific integration of foreign DNA due to high homology. Restriction analysis of different colonies showed that the foreign DNA was probably present in a mixture population of autonomous segment and integrated in the native chloroplast genome.     

Whisker-mediated transformation of embryogenic callus of maize

 The present study was designed to establish embryogenic callus as a target tissue for whisker-mediated transformation of maize (Zea mays L.). Silicon carbide whiskers were used to deliver the bar and uidA (GUS) genes into embryogenic maize callus. Samples of osmotically-treated Type II callus were vigorously agitated in the presence of whiskers and plasmid DNA using a standard laboratory vortex or a modified dental amalgamator. On average, three transgenic callus lines were obtained per 100 samples treated. Plants were regenerated from several GUS-expressing callus lines and DNA analyses confirmed stable integration and inheritance. As with other direct DNA delivery methods involving embryogenic maize callus, integration patterns of the inserted DNA appeared to be complex. Although currently less efficient than microparticle bombardment on a per target basis, whisker-mediated transformation of embryogenic callus represents a viable method for transgenic maize production. Received: 14 May 1999 / Revision received: 11 October 1999 / Accepted: 11 October 1999     

Evaluation of a cotyledonary node regeneration system forAgrobacterium-mediated transformation of pea (Pisum sativum L.)

Summary A rapid regeneration system was used for studies ofAgrobacterium-mediated transformation inPisum sativum L. Cotyledonary node explants were inoculated withAgrobacterium tumefaciens strains containing binary vectors carrying genes for nopaline synthase (NOS),β-glucuronidase (GUS), and neomycin phosphotransferase (NPTII) and placed on selection medium containing either 75 or 150 mg/liter kanamycin. A GUS encoding gene (uidA) containing an intron was used to monitor gene expression from 6 to 21 days postinoculation. GUS activity could be observed 6 days after inoculation in the area of the explant in which regeneration-occurred. Regenerating tissue containing transformed cells was observed in explants on selection medium 21 days postinoculation. Using this system, a single transgenic plant was obtained. Progeny of this plant, which contained two T-DNA inserts, demonstrated segregation for the inserts and for expression of the NOS gene in the selfed R₁ progeny. NPTII activity was observed in the R₂ generation, indicating inheritance and expression of the foreign DNA over at least two generations. Attempts to repeat this procedure were unsuccessful.     

Transient expression of uidA constructs in in vitro onion ( Allium cepa L.) cultures following particle bombardment and Agrobacterium‐mediated DNA delivery

Particle bombardment and Agrobacterium-mediated DNA delivery into immature embryos and microbulbs were used to investigate the expression of the uidA gene in in vitro onion cultures. Both methods were successful in delivering DNA and subsequent uidA expression was observed. Optimal transient -glucuronidase activity was observed in immature embryos that had been pre-cultured for three days and bombarded at a distance of 3 cm from the stopping plate, under 25 in Hg vacuum, using 900–1300 psi rupture discs. The CaMV35S-uidA gene construct gave five fold higher transient -glucuronidase activity than the uidA gene construct regulated by any of four other promoters initially chosen for high experession in monocotyledonous tissues.Abbreviations GUS -glucuronidase - IE immature embryo - MUG methylumbelliferyl -D-glucuronide     

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     

Calluses initiated from thin mature embryo fragments are suitable targets for wheat transformation as assessed by long-term GUS expression studies

Microprojectile- or Agrobacterium-mediated DNA delivery into calluses initiated from immature embryos has proven to be effective in transforming wheat. Yet, obtaining a large number of high quality immature embryos throughout the year is a laborious and delicate process. To circumvent these limitations, we propose an alternative technique applying the particle bombardment technology to calluses derived from fragmented mature embryos rather than immature tissues. The phosphinothricin acetyl transferase (bar) and -glucuronidase (gus) genes were used as selectable and screenable marker genes, respectively, to assess and optimise the performance of the proposed technique. Primary requirement for genetic transformation method development, the regeneration capacity of bombarded calluses was established. A preculture duration of 6 days was identified as optimal for DNA uptake and -glucuronidase (GUS) expression. The highest activity was recorded when calluses were selected. Long-term GUS expression studies (1–7weeks subsequent to bombardment), showed differentiated behaviours for tissues obtained from mature versus immature embryos. Notably, mature embryos exhibited the greatest number of cells stably expressing the reporter gene, thus providing an excellent source material for developing a stable transformation procedure.     

Genetic transformation of Alstroemeria using particle bombardment

Transgenic plants were obtained after particle bombardment of embryogenic callus derived from stem segments of two tetraploid Alstroemeria genotypes with plasmids containing different selection/reporter genes. Firstly, a plasmid containing a firefly luciferase reporter gene driven by the maize ubiquitin promoter (Ubi1), was bombarded into both friable embryogenic callus and proembryos. Transient and stable expression of luciferase was visually detected by a luminometer. This selection method is non-destructive and can be applied over the whole developmental process from callus to embryo and plantlet. Molecular proof of transformation was obtained both by PCR analysis and Southern hybridization. Secondly, a plasmid containing the bar gene together with an uidA gene coding for -glucuronidase both driven by the Ubi1 promoter was bombarded into proembryos. The transgenic callus was effectively selected from the callus clumps four months after bombardment on a medium containing 5 mg/l phosphinotricin (PPT). Selection by PPT was efficient and labour-saving. Stable expression of GUS was confirmed by the histochemical staining assay and molecular proof was obtained by PCR analysis.     

Transgenic cereal (tritordeum) plants obtained at high efficiency by microprojectile bombardment of inflorescence tissue

Transgenic cereal plants expressing the β-glucuronidase (uidA) and neomycin phosphotransferase (neo) genes were obtained via microprojectile bombardment of immature inflorescence tissue of tritordeum (the fertile Hordeum x Triticum amphiploid, H^chH^chAABB). A total of 17 independent transgenic plants were recovered from 32 bombardments (on average four inflorescences per shot). Of the bombardment and culture parameters tested, explant preculture had the most influence on stable transformation frequency. The uidA and neo genes were supplied on two separate plasmids (co-transformation) and 88% of the transgenic plants recovered expressed both genes. Southern analysis confirmed the results of histochemical GUS and NPT II assays. Transgenic plants were grown to maturity and flowered and set seed. Pollen from four T₀ GUS⁺ plants analysed showed GUS activity and T₁ seedlings derived from one of the transgenic plants showed a segregation of 2.75:1 (GUS⁺:GUS⁻) for uidA gene activity.     

Transient expression of the GUS gene in a unicellular marine green alga,<Emphasis Type="Italic">Chlorella</Emphasis> sp.<Emphasis Type="Italic">MACC/C95</Emphasis>, via electroporation

A transient expression system for a unicellular marine green alga,Chlorella sp.MACC/C95, was developed using a reporter GUS gene coded for by plasmid pBI121. The results demonstrated a high transformation efficiency could be achieved by using electroporation to deliver DNA into intact cells and the CaMV35S promoter to drive the foreign gene expression inChlorella sp.MACC/C95. The use of a carrier DNA coupled with osmosis treatment improved the transformation efficiency, while linearization of the plasmid had minor effects. Investigation of the effects of DNA concentration and growth phases ofChlorella sp.MACC/C95 on transformation efficiency indicated that the highest level of transient expression was observed when 6 μg mL⁻¹ of plasmid DNA and cells 2–6 days old were used.