Protamine-mediated DNA coating remarkably improves bombardment transformation efficiency in plant cells

We have developed a method by which remarkably higher efficiencies of transient and stable transformation were achieved in bombardment transformation of plants. Over fivefold increase in transient gus gene expression was achieved when rice or maize suspension cells were bombarded with gold particles coated with plasmid DNA in the presence of protamine instead of the conventional spermidine. A 3.3-fold improvement in stable transformation efficiency was also observed using rice suspension cells with the new coating approach. The coated protamine-plasmid DNA complex resisted degradation by a DNase or by rice cell extract much longer than the spermidine-plasmid DNA complex. The results from this study suggest that protamine protects plasmid DNA longer than spermidine when being delivered inside the cells, probably by forming a nano-scale complex, and thus helps improve the efficiency of particle bombardment-mediated plant transformation.     

Characterisation of T-DNA loci and vector backbone sequences in transgenic wheat produced by Agrobacterium-mediated transformation

Detailed molecular characterisation of transgene loci is a requirement for gaining regulatory approval for environmental release of genetically modified crops. In cereals, it is generally accepted that Agrobacterium-mediated transformation generates cleaner transgene loci with lower copy number and fewer rearrangements than those generated by biolistics. However, in wheat there has been little detailed analysis of T-DNA insertions at genetic and molecular level. Wheat lines transformed using Agrobacterium tumefaciens with bar and gusA (GUS) genes were subjected to genetic and molecular analysis. Unlike previous studies of transgene loci in wheat, we used functional assays for PAT and GUS proteins, combined with PCR and Southern analysis to detect the presence, copy number, linkage and transmission of two transgenes inserted in the same T-DNA. Thirty-four independent transgenic lines were categorised into three types: type I events (38% of total) where the gusA and bar genes displayed complete genetic linkage, segregating together as a single functional locus at the expected ratio of 3:1; type II events (18%), which possessed two or more transgene loci each containing gusA and bar; and type III events (44%), containing an incomplete T-DNA in which either the gusA or bar gene was lost. Most lines in this last category had lost the bar gene situated near the left T-DNA border. Southern analysis indicated that 30% of all lines possessed a single T-DNA copy containing gusA and bar. However, when data on expression and molecular analysis are combined, only 23% of all lines have single copy T-DNAs in which both gene cassettes are functioning. We also report on the presence of plasmid backbone DNA sequence in transgene loci detected using primer pairs outside the left and right T-DNA borders and within the plasmid selectable marker (NptI) gene. Approximately two thirds of the lines contained some vector backbone DNA, more frequently adjacent to the left border. Taken together, these data imply unstable left border function causing premature T-strand termination or read-through into vector backbone. As far as we are aware, this is the first report revealing near border T-DNA truncation and vector backbone integration in wheat transgenic lines produced by Agrobacterium-mediated transformation.     

Biolistic transformation of wheat: increased production of plants with simple insertions and heritable transgene expression

The feasibility of map-based cloning in wheat has been demonstrated recently, opening new perspectives for a better understanding of wheat plant biology and for accelerating wheat improvement in the coming decades. To validate the function of candidate genes, an efficient transformation system is needed. Here, we have performed two methods for wheat transformation using particle bombardment that ensures the production of transgenic plants with simple integration patterns for research purposes and stable transgene expression for accurate and rapid validation of gene function. To establish this method, we used the bar and pmi selectable genes either as part of whole plasmids, gene cassettes (obtained by PCR or purified on agarose gels), or as dephosphorylated cassettes. The analysis of about 300 transgenic plants showed that the use of gene cassettes or dephosphorylated gene cassettes leads to a majority (50–60 %) of simple integration events. This is significantly higher than the number of simple events obtained with whole plasmids (9–25 %). Moreover, the decrease of the quantity of DNA from 500 to 5 ng/µl for PCR-amplified cassettes used for transformation increased the number of single integration events. The transformation efficiency remained stable at 2.5 %, and a higher number of plants expressing the transgenes were obtained with the dephosphorylated cassette. No correlation was observed between the complexity of the events and stability of expression of the transgene, suggesting that plasmid sequences could be involved on transgene silencing. The inheritability of the transgene was demonstrated in T1 and T2 generations. These results show that biolistic transformation of dephosphorylated gene cassettes provides an easy and efficient route to produce backbone vector-free transgenic wheat carrying and expressing intact and single transgenes.     

Studies on genetic transformation of olive (<Emphasis Type="Italic">Olea europaea</Emphasis> L.) somatic embryos: I. Evaluation of different aminoglycoside antibiotics for <Emphasis Type="Italic">nptII</Emphasis> selection; II. Transient transformation via particle bombardment

As a first step to the establishment of a genetic transformation protocol for olive somatic embryos obtained from the seeds of cv. ‘Picual’, the efficiencies of different aminoglycoside antibiotics as selective agents to be used with the nptII marker gene, and the particle bombardment technique for transient transformation have been evaluated. Among the three antibiotics tested, paromomycin and kanamycin showed a similar inhibitory effect and, at 200 mg l⁻¹, both of them impaired callus growth after 8 weeks of culture. However, when isolated embryos were cultured in the presence of these antibiotics, a 20% of the embryos still remained viable at 400 mg l⁻¹. Neomycin was discarded as a selective agent since it showed only a moderate toxic effect. Contrary to solid medium, when olive callus was cultured in liquid medium supplemented with different paromomycin concentrations for 3 weeks, the callus growth was impaired at the lowest antibiotic concentration, 3 mg l⁻¹. Best conditions for transient transformation of olive callus using PDS-1000/He system were a 6 cm target distance and a 900 psi bombardment pressure. pCGU∆1 plasmid, containing the gus gene under the control of sunflower ubiquitin promoter yielded a significantly higher number of gus expression areas per bombarded explant than pGUSINT or pJGUS5 plasmids, where the gus gene is driven by CaMV35S promoter or CaMV35S with enhancer, respectively. Almost 45% of bombarded explants showed gus expression 12 weeks after bombardment.     

Transient gene expression and influence of promoters on foreign gene expression in Arabidopsis thaliana

Summary The influence of a variety of parameters was investigated on polyethylene glycol (PEG)-mediated transient nptII and gus gene expression in mesophyll protoplasts of Arabidopsis thaliana ecotype, Estland, in order to develop a suitable transient gene expression system. The investigation revealed that a combination of 20% PEG, incubation time of 15 min, 20–30 μg plasmid concentration per ml along with 50 μg carrier DNA m/l, and inclusion of calcium and magnesium ions during transfection followed by a culture period of 24 h registered maximum NPTII activity. Of the various promoters used for driving expression of the gus gene, the ubiquitin promoter from A. thaliana was the most efficient followed by 35S promoter of the CaMV and the actin promoter of rice. For comparison, similar studies in protoplasts of rice, wheat, and Brassica also revealed the differences in strength of these promoters. Arabidopsis ubiquitin promoter was the most effective in Brassica, and the rice actin1 promoter was the most effective in rice and wheat.     

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     

Generation of marker‐free transgenic hexaploid wheat via an Agrobacterium‐mediated co‐transformation strategy in commercial Chinese wheat varieties

Genotype specificity is a big problem lagging the development of efficient hexaploid wheat transformation system. Increasingly, the biosecurity of genetically modified organisms is garnering public attention, so the generation of marker‐free transgenic plants is very important to the eventual potential commercial release of transgenic wheat. In this study, 15 commercial Chinese hexaploid wheat varieties were successfully transformed via an Agrobacterium‐mediated method, with efficiency of up to 37.7%, as confirmed by the use of Quickstix strips, histochemical staining, PCR analysis and Southern blotting. Of particular interest, marker‐free transgenic wheat plants from various commercial Chinese varieties and their F₁ hybrids were successfully obtained for the first time, with a frequency of 4.3%, using a plasmid harbouring two independent T‐DNA regions. The average co‐integration frequency of the gus and the bar genes located on the two independent T‐DNA regions was 49.0% in T₀ plants. We further found that the efficiency of generating marker‐free plants was related to the number of bar gene copies integrated in the genome. Marker‐free transgenic wheat plants were identified in the progeny of three transgenic lines that had only one or two bar gene copies. Moreover, silencing of the bar gene was detected in 30.7% of T₁ positive plants, but the gus gene was never found to be silenced in T₁ plants. Bisulphite genomic sequencing suggested that DNA methylation in the 35S promoter of the bar gene regulatory region might be the main reason for bar gene silencing in the transgenic plants.     

<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated high frequency transformation in dwarf recalcitrant rice cultivars

The Agrobacterium-mediated transformation was done in rice (Oryza sativa L. var. indica) cv. HKR126 and elite cross-bred cv. Pusa Basmati1 (PB1), using strain LBA4404 containing pCAMBIA1300 cloned with gene cassettes; potato proteinase inhibitor and Bacillus thuringiensis endotoxin (plasmid JDW53) or mannitol-1-phosphate dehydrogenase (plasmid RKJ108). Co-cultivation with scutellar-calli derived from mature seeds showed stable and highly efficient transformation. In cvs. HKR126 and PB1, 35 % and 41 % of hygromycin resistant calli were obtained. The transformation efficiency in PB1 (22.0 %) was much higher than in HKR126 (12.5 %). Similarly, PB1 had higher plant regeneration efficiency than HKR126. The shoots regenerated per callus were, 3–4 in HKR126 and 5–6 in PB1. The transformation efficiency with pRKJ108 (18.6 %) was higher than pJDW53 (15.9 %). Polymerase chain reaction (PCR) analysis showed the presence of transgenes in regenerated transgenic plants of both cultivars.     

Optimization of factors influencing microprojectile bombardment-mediated genetic transformation of seed-derived callus and regeneration of transgenic plants in <Emphasis Type="Italic">Eleusine coracana</Emphasis> (L.) Gaertn

Microprojectile bombardment mediated genetic transformation parameters have been standardized for seed derived callus of Eleusine coracana. Plasmid pCAMBIA 1381 harboring hygromycin phosphotransferase (hptII) as selectable marker gene and β-glucuronidase (gus A) as reporter gene, was used for the optimization of gene transfer conditions. The transient GUS expression and survival of putative transformants were taken into consideration for the assessment of parameters. Optimum conditions for the microprojectile bombardment mediated genetic transformation of finger millet were 1,100 psi rupture disk pressure with 3 cm distance from rupture disk to macrocarrier and 12 cm microprojectile travel distance. Double bombardment with gold particles of 1.0 μm size provided maximum transient GUS expression and transformation efficiency. Osmotic treatment of callus with 0.4 M sorbitol enhanced efficiency of particle bombardment mediated genetic transformation. Regenerative calli were bombarded at optimum conditions of bombardment and placed on regeneration medium with hygromycin to obtain transformed plants. The integration of hptII and gus A genes was confirmed with PCR amplification of 684 and 634 bp sizes of the bands respectively from putative transformants and Southern blot hybridization using PCR amplified DIG labeled hptII gene as probe. PCR analysis with hptII gene specific primers indicated the presence of transgene in T₁ generation plants. Thus a successful genetic transformation system was developed using particle bombardment in E. coracana with 45.3% transformation efficiency. The protocol will be helpful for the introgression of desired genes into E. coracana.     

Development of an efficient transient transformation protocol for avocado (Persea americana Mill.) embryogenic callus

An efficient protocol for transient transformation of avocado embryogenic callus has been established, using the PDS-1000/He system and the reporter gus gene driven by the sunflower polyubiquitin promoter. Best physical parameters for transient transformation were 900 psi helium pressure and 6 cm target distance. The level of transient gus expression was slightly higher when the amount of DNA per shot was increased from 0.6 to 1.8 μg, but it was not significantly modified by the type of microprojectile used (tungsten vs. gold particles). The transient transformation assay developed in this research was used to test the strength of different promoters and the expression of fluorescent reporter genes. Four constitutive promoters, sunflower polyubiquitin, CaMV35S, CaMV35S with enhancer, and rice actin 1, as well as a trichome-specific promoter, ATP, were analyzed. Polyubiquitin and ATP promoters yielded the highest number of gus expressing foci, while no expression was detected with the Act1 promoter from rice. Embryogenic callus was also bombarded with plasmids pXK7S*NF2 and pXK7RNR2, harboring the enhanced green fluorescent gene, EGFP, and the red fluorescent gene DsRed, respectively. Both fluorescent proteins were detected 24 and 72 h after bombardment, but the observed transformation efficiency was slightly higher in GFP bombarded cells. The transient transformation system described here can be used as a fast way to select suitable promoters and/or fluorescent genes needed to undertake stable transformation studies in avocado using currently available protocols.     

Microprojectile bombardment mediated genetic transformation of embryo axes and plant regeneration in cumin (<Emphasis Type="Italic">Cuminum cyminum</Emphasis> L.)

Pre-cultured cumin embryos were bombarded under 27 inches Hg vacuum, 25 mm distance from rupture disc to macrocarrier, 10 mm macrocarrier flight distance using 1100 psi rupture disc and 9 cm microprojectile travel distance. An average of 110 embryos was used per shot and 91% embryos showed transient GUS expression after 24 h. Shoot tips and roots of T₀ plantlets exhibited GUS expression done after 3 months of bombardment. Transformation was confirmed with PCR amplification of 0.96 and 1.3 kb band of hptII and gus genes respectively from T₀ transgenics and southern blot analysis using PCR amplified DIG labeled hptII gene as probe. It is the first successful attempt of transformation of cumin plant through direct gene transfer using particle gene gun and adequately exhibiting the possibility of stable transformation in cumin.     

Plant regeneration from transformed embryogenic callus of an elite indica rice via Agrobacterium

The present study describes a simple and efficient protocol for plant regeneration from scutellar-derived embryogenic calli of an elite basmati indica rice (Oryza sativa L., cv Pusa Basmati 1) transformed with Agrobacterium. A supervirulent plasmid pTOK233 as well as a non-supervirulent plasmid pJB90GI containing -glucuronidase (gus) and hygromycin phosphotransferase (hpt) chimeric genes were used to assess transformation and regeneration efficiency. The effects of some factors like the bacterial density and inclusion of sorbitol in the medium on the co-culture and transformation have been evaluated; the procedure for selection and regeneration from transformed calli was found to be critical. Furthermore, co-culture and selection on regeneration medium was found to be better than callus medium and led to minimal media manipulations. Regeneration medium supplemented with 3% maltose was found to be better for regeneration as compared to 3% sucrose. The transformed calli were subjected to three cycles of regeneration, thus converting a higher number of transformation events into regenerants. The selected calli as well as leaf sections and roots of the transformants were GUS positive. The stable integration of the transgene was confirmed by polymerase chain reaction and Southern blot analysis of the transformants. Interestingly, the presence of three additional vir genes in supervirulent plasmid pTOK233 was not required for transformation as transformation was successful with non-supervirulent plasmid pJB90GI, although the transformation and regeneration frequency was higher with the former. This effective protocol for regeneration from transformed calli resulted in a relatively high transformation frequency.     

Agrobacterium-mediated genetic transformation of selected tropical inbred and hybrid maize (Zea mays L.) lines

The study was carried out to evaluate the amenability of tropical inbred and hybrid maize lines, using Agrobacterium mediated transformation technique. Agrobacterium tumefaciens strains EHA101 harbouring a pTF102 binary vector, EHA101, AGL1, and LBA4404 harbouring pBECK2000.4 plasmid, LBA4404, GV and EHA105 harbouring pCAMBIA2301 plasmid, and AGL1 harbouring the pSB223 plasmid were used. Delivery of transgenes into plant tissues was assessed using transient β-glucuronidase (gus) activity on the 3rd and 4th day of co-cultivation of the infected Immature Zygotic Embryos (IZEs) and embryogenic callus. Transient gus expression was influenced by the co-cultivation period, maize genotype and Agrobacterium strain. The expression was highest after the 3rd day of co-culture compared to the 4th day with intense blue staining was detected for IZEs which were infected with Agrobacterium strains EHA105 harbouring pCAMBIA2301 and EHA101 harbouring pTF102 vector. Putative transformants (T_o) were regenerated from bialaphos resistant callus. Differences were detected on the number of putative transformants regenerated among the maize lines. Polymerase chain reaction (PCR) amplification of Phosphinothricin acetyltransferase (bar) and gus gene confirmed the transfer of the transgenes into the maize cells. Southern blot hybridization confirmed stable integration of gus into PTL02 maize genome and segregation analysis confirmed the inheritance of the gus. A transformation efficiency of 1.4 % was achieved. This transformation system can be used to introduce genes of interest into tropical maize lines for genetic improvement.     

质粒DNA物理形态和其它因素对获得可育转基因小麦的影响

本工作分析了不同形态质粒DNA和未成熟胚高渗透压处理对基因枪小麦转化体系的适用性.高渗处理对瞬间表达和转基因小麦的再生均有明显的促进作用.轰击之前对质粒DNA进行变性处理导致瞬间表达反应大幅度下降,但稳定转化频率(指从100个轰击未成熟胚得到的再生可育转基因植株数)与双链DNA相差不大.使用单链质粒DNA、线性双链质粒DNA和环状双链质粒DNA均可以得到转基因小麦植株.迄今已得到26个不同的转基因冬小麦株系和4个不同的转基因春小麦株系.这些转基因小麦大多数已产生种子,几个春小麦株系已获第二代种子.     

Genetic transformation of Brassica nigra by agrobacterium based vector and direct plasmid uptake

Summary Genetic transformation systems have been established for Brassica nigra (cv. IC 257) by using an Agrobacterium binary vector as well as by direct DNA uptake of a plasmid vector. Both the type of vectors carried nptII gene and gus gene. For Agrobacterium mediated transformation, hypocotyl tissue explants were used, and up to 33% of the explants produced calli on selection medium. All of these expressed B-glucuronidase gene on histochemical staining. Protoplasts isolated from hypocotyl tissues of seedlings could be transformed with a plasmid vector by FEG mediated uptake of vector DNA. A number of fertile kanamycin resistant plants were obtained using both the methods, and their transformed nature was confirmed by Southern blot analysis and histochemical staining for GUS. Backcrossed and selfed progenies of these transformed plants showed the presence of npt and gus genes.     

Linear transgene constructs lacking vector backbone sequences generate transgenic rice plants which accumulate higher levels of proteins conferring insect resistance

Biolistic transformation was used to introduce genes encoding the insecticidal proteins snowdrop lectin (Galanthus nivalis agglutinin; GNA) and cry1Ac Bt toxin (-endotoxin from Bacillus thuringiensis) into elite rice (Oryza sativa) cultivars. Plant transformation was carried out in parallel experiments simultaneously by using either whole plasmids containing suitable gene constructs, or the corresponding minimal gene cassettes, which were linear DNA fragments lacking vector sequences excised from the plasmids. Both transformation methods generated similar numbers of independent transformation events. Selected R₀ clonal plant lines were further characterised for presence and expression of transgenes. Co-transformation of the unselected genes (cry1Ac and gna) with the selectable marker (hpt) was at least as efficient for transformation with minimal gene cassettes as with whole plasmid DNA, and higher levels of accumulation of the insecticidal gene products GNA and cry1Ac were observed in plants resulting from minimal gene cassette transformation. Insect bioassays with major pests of rice showed that transgenic plants expressing gna showed enhanced resistance to brown planthopper (Nilaparvata lugens), and plants expressing cry1Ac were protected against attack by striped stem borer (Chilo suppressalis). Expression of both transgenes gave protection against both pests, but did not increase protection against either pest significantly over the levels observed in plants containing a single insecticidal transgene.     

Chromosomal integration is required for spatial regulation of expression from the β-phaseolin promoter

The stringency of spatial expression of phaseolin, the major storage protein of bean (Phaseolus vulgaris) seeds, has been rigorously evaluated using stable and transient transformation techniques. Transgenic tobacco plants known to be homozygous for the β-glucuronidase (gus) reporter sequence under the regulation of various lengths of the β-phaseolin gene (phas) promoter were shown to express gus only in developing seed tissues. No expression was detected in calli initiated from stems, leaves and immature seeds, showing that expression was not leaky in undifferentiated tissues. Control plants and cultures containing gus fused to the CaMV 35S promoter actively expressed gus under identical conditions. It was not possible to induce expression in phas/gus calli with ABA, GA or jasmonic acid. Treatment of the cultures with 5-azacytidine did not result in expression, excluding methyletlon as the major factor regulating the phas promoter. However, strong gus expression was detected in seed of plants regenerated from these callus cultures, confirming that neither gene rearrangements nor deletion were responsible for the lack of activity seen in tissues other than the developing seed. In contrast to the above observations, strong transient expression of gus was detected in tobacco, bean and soybean leaves following introduction of the phas/gus fusion constructs via biolistic approaches and in electroporated bean leaf and hypocotyl protoplasts. These experiments show unequi-vocally that the phas promoter is under rigorous spatial control when integrated into the genome, but lacks spatial control when present as extrachromosomal naked DNA. A putative model explaining these differences is presented.     

Combination of viral promoter sequences to generate highly active promoters for heterologous therapeutic protein over-expression in plants

To develop strong promoters for protein over-expression in both dicots and monocots, we constructed a new family of chimeric promoters using sequences of the Commelina Yellow Mosaic Virus (CoYMV), of the Cassava Vein Mosaic Virus (CsVMV) and activating sequences from the CaMV 35S promoter. The chimeric promoters were cloned upstream from the gusA reporter gene. The constructs were used in transient expression experiments, via DNA-coated gold particle delivery to tobacco leaves and maize endosperms. The results showed that candidates among the chimeric promoters could drive expression of the reporter gene to very high levels in the dicot plant tobacco, and all chimeric promoters showed higher expression in maize endosperm than the maize γ-zein promoter used as reference for the monocot expression. Expression cassettes were then used in stable tobacco transformation. Determination of GUS activity throughout growth of the primary transformants showed that two promoters (MPr1163 and MPr1165) could drive expression three to five-fold higher than the highly efficient enhanced 35S promoter. The use of MPr1163 was additionally validated for successful heterologous protein production of human lactoferrin in tobacco via agroinfiltration.