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 transgenic rice pure lines by particle bombardment‐mediated transformation and genetic analysis‐based selection

Mature seed‐derived callus from an elite Chinese japonica rice cv. Eyl 105 was transformed with a plasmid containing the selectable marker hygromycin phosphotransferase (hpt) and the reporter β‐glucuronidase (gusA) genes via particle bombardment. After two rounds of selection on hygromycin (30 mg/l)‐containing medium, resistant callus was transferred to hygromycin (30 mg/l)‐containing regeneration medium for plant regeneration. Twenty‐three independent transgenic rice plants were regenerated from 127 bombarded callus with a transformation frequency of 18.1%. All the transgenic plants contained both gusA and hpt genes, revealed by PCR/Southern blot analysis. GUS assay revealed 18 out of 23 plants (78.3%) proliferated on hygromycin‐containing medium had GUS expression at various levels. Genetic analysis confirmed Mendelian segregation of transgenes in progeny. From R2 generations with their R1 parent plants showing 3:1 Mendelian segregation, we identified three independent homozygous transgenic rice lines. The homozygous lines were phenotypically normal and fertile compared to the control plants. We demonstrate that homozygous transgenic rice lines can be obtained via particle bombardment‐mediated transformation and through genetic analysis‐based selection.     

Electrotransformation of Chlorella vulgaris

Using hygromycin B resistance as a marker for selection, we have established the conditions required for the transformation of Chlorella vulgaris. The exponentially grown C. vulgaris cells were transformed by electroporation with plasmid pIG121-Hm, and transformants were selected with hygromycin B at a concentration of 50 μg/ml. Cell extracts prepared from the late-log cultures of the transformants exhibited glucuronidase activities as conferred by the gus gene on pIG121-Hm. The maintenance of plasmid in the algal cells seemed to be transient as many cultures derived from the hygromycin B-resistant colonies gradually lost the hygromycin resistance upon prolonged growth. The result of Southern blotting of the genomic DNAs prepared from transformant cultures exhibiting persistent hygromycin resistance showed that integration of part of the plasmid DNA into the host chromosome had taken place. Received: 19 December 1997 / Revision received: 5 October 1998 / Accepted: 27 October 1998     

DNA-mediated transformation system in a bipolar basidiomycete, <Emphasis Type="Italic">Pholiota microspora</Emphasis> (<Emphasis Type="Italic">P. nameko</Emphasis>)

We cloned a gene encoding the succinate dehydrogenase iron-sulfur protein subunit (sip) from a bipolar mushroom, Pholiota microspora, and introduced a point mutation that confers carboxin resistance into this gene. Using this homologous selective marker and also a heterologous drug selective marker, the hygromycin B phosphotransferase gene (hph), we successfully constructed a DNA-mediated transformation system in P. microspora. Both these selection markers have high transformation efficiency: the efficiency of carboxin resistance transformation was about 88.8 transformants/μg pMBsip2 DNA using 5 × 10⁶ protoplasts in regeneration plates containing 1.0 μg/ml carboxin, and the efficiency of hygromycin B resistance transformation was about 122.4 transformants/μg pMBhph1 DNA using 5 × 10⁶ protoplasts in regeneration plates containing 150 μg/ml hygromycin B. Southern hybridization analysis showed that the introduced sequence (mutant sip or hph) was integrated into the chromosomal DNA in these transformants with a copy number of one or more.     

Efficient transformation of scutellar tissue of immature maize embryos

  An efficient transformation system for maize was established by improving transformation conditions for the particle bombardment of the scutellar tissue of immature embryos. Particle bombardment was carried out using constructs containing the pat gene as the selection marker and a PDS 1000/He gun (Biorad). Transformation parameters, such as the amount of gold particles used per bombardment, particle velocity, preculture time of the scutellum prior to bombardment and osmotic treatment of the target tissue before and after bombardment, were analysed. Fertile transgenic regenerants of the maize inbred lines H99, A188 and Pa91 and the crosses A188×H99 and Pa91×H99 were selected on Basta-containing medium. The transformation frequency was between 2% and 4%. A total of 29 transgenic plant lines was obtained and verified with Southern blot analysis. All of the transgenic plants were fertile and set seeds. The R1 progeny of single plants was analysed. A Mendelian segregation of the transgenes was observed for all of the transformants tested. For 1 candidate, stable inheritance and stable expression of the transgenes were followed up to the R₄ generation. Received: 28 October 1996/Accepted: 15 November 1996     

DNA mediated transformation of Aspergillus ficuum

Summary Two DNA-mediated transformation systems were successfully adapted to Aspergillus ficuum. Both the Escherichia coli hygromycin B resistance gene and the A. nidulans amdS gene transformation systems produced stable A. ficuum NRRL 3135 transformants. Cotransformation with the E. coli lacZ gene was also achieved with the hygromycin B system. In cotransformation a second unselected gene, in this case the lacZ gene which codes for -galactosidase, was also integrated and expressed in hygromycin B transformants. Since both of these transformation systems utilized dominant selection markers, they are potentially useful in other genetically uncharacterized filamentous fungi.     

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.     

Transgenic Russian wildrye (<Emphasis Type="Italic">Psathyrostachys juncea</Emphasis>) plants obtained by biolistic transformation of embryogenic suspension cells

Russian wildrye (Psathyrostachys juncea (Fisch.) Nevski) is a cool-season forage species well adapted to semi-arid climates. We are interested in developing biotechnological methods to improve this monocot forage species. Single genotype-derived embryogenic suspension cultures were established from the Russian wildrye cultivar Bozoisky-Select, and were used as target cells for biolistic transformation. A chimeric hygromycin phosphotransferase gene (hph) was used as the selectable marker, and a chimeric -glucuronidase (gusA) gene was co-transformed with hph. Resistant calli were obtained from 29% of the bombarded dishes after selection with 200 mg/l hygromycin. Plants were regenerated from 45% of the hygromycin resistant calli. Thirty-six transgenic Russian wildrye plants were recovered after microprojectile bombardment of suspension cells and subsequent hygromycin selection. The transgenic nature of the regenerated plants was demonstrated by Southern hybridization analysis using undigested and digested genomic DNA samples. When a second gene (gusA) was co-transformed with hph, a reasonably high co-transformation frequency of 78% was observed. Transgenic expression of gusA was confirmed by GUS staining of shoot and leaf tissues. Fertile transgenic plants were obtained after two winters of vernalization under field conditions. This is the first report on the generation of transgenic plants in Russian wildrye.     

Isolation of transgenic progeny of maize by embryo rescue under selective conditions

Summary Fertile transgenic maize plants (T₀) and progeny (T₁) were obtained using microprojectile bombardment and callus selection on hygromycin B. To quickly identify progeny expressing the transgene, embryos from T3 generation kernels were excised 20 days after pollination and exposed to different concentrations of hygromycin B. Surviving and non-surviving embryos were assayed for the presence of the hygromycin phosphotransferase (aphIV) gene using polymerase chain reaction. Embryos that germinated and survived on 25, 50, or 100 mg/liter hygromycin possessed theaphIV gene. Embryos that did not germinate lacked the gene. Progeny surviving selection were transferred to the greenhouse and tested for expression of the gene using a leaf disc assay. The results demonstrated that the gene construct was expressed in both embryo and leaf tissue and that selection during germination successfully eliminated progeny lacking the gene of interest. This method is also useful for rapid-cycling of maize generations.     

Transformation of <Emphasis Type="Italic">Lyophyllum decastes</Emphasis> by particle bombardment

The basidiomycete Lyophyllum decastes was transformed by means of particle bombardment. We isolated five transformants under twelve conditions differing in the two parameters of target distance and helium pressure. The transformation frequency was one transformant/μg DNA. In the transformants, plasmid DNAs were integrated into the genomic DNA and stably maintained. This is the first report on transformation of L. decastes by particle bombardment.     

Transgenic peanut plants containing a nucleocapsid protein gene of tomato spotted wilt virus show divergent levels of gene expression

The nucleocapsid protein (N) gene of the lettuce isolate of tomato spotted wilt virus (TSWV) was inserted into peanut (Arachis hypogaea L.) via microprojectile bombardment. Constructs containing the hph gene for resistance to the antibiotic hygromycin and the TSWV N gene were used for bombardment of peanut somatic embryos. High frequencies of transformation and regeneration of plants containing the N gene were obtained. Southern blot analysis of independent transgenic lines revealed that one to several copies of the N gene were integrated into the peanut genome. Northern blot, RT-PCR and ELISA analyses indicated that a gene silencing mechanism may be operating in primary transgenic lines containing multiple copy insertions of the N transgene. One transgenic plant which contained a single copy of the transgene expressed the N protein in the primary transformant, and the progeny segregated in a 3 :1 ratio based upon ELISA determination. Received: 24 October 1997 / Revision received: 9 February 1998 / Accepted: 21 February 1998     

Efficient and stable transformation of hop (Humulus lupulus L.) var. Eroica by particle bombardment

To the best of our knowledge, this is the first accurate and reliable protocol for hop (Humulus lupulus L.) genetic transformation using particle bombardment. Based on the highly productive regeneration system previously developed by us for hop var. Eroica, two efficient transformation protocols were established using petioles and green organogenic nodular clusters (GONCs) bombarded with gusA reporter and hpt selectable genes. A total of 36 hygromycin B-resistant (hyg^r) plants obtained upon continuous selection were successfully transferred to the greenhouse, and a first generation group of transplanted plants was followed after spending a complete vegetative cycle. PCR analysis showed the presence of one of both transgenes in 25 plants, corresponding to an integration frequency of 69.4% and an overall transformation efficiency of 7.5%. Although all final transformants were GUS negative, the integration frequency of gusA gene was higher than that of hpt gene. Petiole-derived transgenic plants showed a higher co-integration rate of 76.9%. Real-time PCR analysis confirmed co-integration in 86% of the plants tested and its stability until the first generation, and identified positive plants amongst those previously assessed as hpt ⁺ only by conventional PCR. Our results suggest that the integration frequencies presented here, as well as those of others, may have been underestimated, and that PCR results should be taken with precaution not only for false positives, but also for false negatives. The protocols here described could be very useful for future introduction of metabolic or resistance traits in hop cultivars even if slight modifications for other genotypes are needed.     

Transgenic fertile japonica rice plants expressing a modified cryIA(b) gene resistant to yellow stem borer

The japonica rice variety Taipei 309 was cotransformed by particle bombardment of immature embryo-derived embryogenic calli with a modified δ-endotoxin gene cryIA(b) of Bacillus thuringiensis (Bt) under the control of the rice Actin1 promoter, and the hygromycin resistance gene, hph driven by the CaMV35S promoter. Selected transgenic rice plants showed enhanced insecticidal activity against yellow stem borer (Scirpophaga incertulas), with mortality rates reaching up to 100% in a bioassay with cut stems. Introduction and expression of the Actin1 promoter-Bt gene into rice provides japonica rice germplasm resistant to insect attack. Received: 21 March 1997 / Revision received: 23 June 1997 / Accepted: 5 July 1997     

Production of transgenic gentian plants by particle bombardment of suspension-culture cells

 Cell suspension cultures were established from leaf explants of gentian (Gentiana triflora×G. scabra) for the generation of transgenic plants by particle bombardment. The parameters for the bombardment of suspension culture cells with a particle gun were examined by monitoring the transient expression of a gene for β-glucuronidase driven by the cauliflower mosaic virus (CaMV) 35S promoter. We found that prior culture of suspension culture cells for 5 days on solid medium was optimum for successful particle bombardment. Putative transformed calli were obtained from bombarded cells after a two-step selection procedure. Cells were cultured first with 30 mg l^–1 hygromycin in liquid MS medium that contained 10 mg l^–1 N-phenyl-N′-1,2,3-thiadiazol-5-yl urea, 1 mg/l 1-naphthaleneacetic acid and 30 g l^–1 sucrose and then on solid medium prepared from the same liquid medium plus 2 g l^–1 gellan gum. After 12 weeks of selection on solid medium that contained 30 mg l^–1 hygromycin, two transgenic gentian plants were regenerated from each selected callus. Analysis by the polymerase chain reaction and Southern blotting revealed the stable integration of transferred DNA. Received: 3 June 1999 / Revision received: 21 September 1999 / Accepted: 20 September 1999     

Production of Transgenic Rice Homozygous Lines with Enhanced Resistance to the Rice Brown Planthopper

Mature seed‐derived callus from an elite Chinese japonica rice (Oryza sativa L.) cv. Eyi 105 was cotransformed with two plasmids, pWRG1515 and pRSSGNA1,containing the selectable marker hygromycin phosphotransferase gene (hpt), the reporter β‐glucuronidase gene (gusA) and the snow‐drop (Galanthus nivalis) lectin gene (gna) via particle bombardment. After two rounds of selection on hygromycin‐containing medium, resistant callus was transferred to hygromycin‐containing regeneration medium for plant regeneration. Twenty‐six independent transgenic rice plants were regenerated from 152 bombarded calli with a transformation frequency of 17%. Seventy‐three percent of transgenic plants contained all three genes, which was revealed by PCR/Southern blot analysis. Thirteen out of 19 transgenic plants containing the gna gene expressed GNA (68%) at various levels with the highest expression being approximately 0.5% of total soluble protein. Genetic analysis confirmed Mendelian segregation of transgenes in progeny. From R2 generations with their R1 parentplants showing 3:1 Mendelian segregation patterns, we identified three independent homozygous lines containing and expressing all three transgenes.Insect bioassay and feeding tests showed that these homozygous lines had significant inhibition to the rice brown planthopper (Nilaparvata lugens, BPH) by decreasing BPH survival and overall fecundity, retarding BPH development and reducing BPH feeding.This is the first report that homozygous transgenic rice lines expressing GNA, developed by genetic transformation and through genetic analysis‐based selection, conferred enhanced resistance to BPH, one of the most damaging insect pests in rice.     

Establishment of neomycin phosphotransferase II (<Emphasis Type="Italic">nptII</Emphasis>) selection for transformation of soybean somatic embryogenic cultures

Soybean transformation is limited by the lack of multiple efficient selectable marker systems. Biolistic transformation of somatic proliferative embryogenic cultures, one of the commonly used soybean transformation methods, relies largely on hygromycin phosphotransferase II (hptII) selection. The purpose of the present study was to establish another efficient selectable marker system to facilitate multiple gene transformations of soybean. We tested neomycin phosphotransferase II (nptII) that has been used successfully in cotyledonary node transformation, but with limited success in transformation of embryogenic cultures. Transgenic events were obtained using nptII with improved G418 selection without generating escapes. G418 selection required longer recovery and selection periods, and resulted in a lower efficiency of initial transformants compared to hygromycin selection. Six independent fertile transgenic plants were recovered using nptII and G418, a frequency similar to that obtained with hygromycin selection. Soybean embryogenic cultures co-transformed with the hptII and nptII markers showed resistance to both hygromycin B and G418, while regeneration and plant fertility were not adversely affected. The nptII will be useful as a second selectable marker for multiple gene transformations in basic and applied soybean research.     

Efficient genetic transformation of red raspberry,Rubus ideaus L.

We have developed an efficient transformation system for red raspberry (Rubus ideaus L.) using Agrobacterium mediated gene transfer. Using this system we have successfully introduced a gene that encodes an enzyme, S-adenosylmethionine hydrolase (SAMase), in raspberry cultivars Meeker (MK), Chilliwack (CH) and Canby (CY). Leaf and petiole expiants were inoculated with disarmed Agrobacterium tumefaciens strain EHA 105 carrying either of two binary vectors, pAG1452 or pAG1552, encoding gene sequences for SAMase under the control of the wound and fruit specific tomato E4 promoter. Primary shoot regenerants on selection medium were chimeral containing both transformed and non-transformed cells. Non-chimeral transgenic clones were developed by iterative culture of petiole, node and leaf explants, on selection medium, from successive generations of shoots derived from the primary regenerants. Percent recovery of transformants was higher with the selection marker gene hygromycin phosphotransferase (hpt), than with neomycin phosphotransferase (nptII). Transformation frequencies of 49.6%, 0.9% and 8.1% were obtained in cultivars Meeker, Chilliwack and Canby respectively from petiole expiants using hygromycin selection. Genomic integration of transgenes was confirmed by Southern hybridization. Transgenic plants from a total of 218 independent transformation events (161 MK, 4 CH, 53 CY) have been successfully established in soil.Abbreviations ACCO amincocyclopropane-1-carboxylic acid oxidase - AS acetosyringone - BA 6-benzylaminopurine - CH cultivar Chilliwack - CY cultivar Canby - cv cultivar - hpt hygromycin phosphotransferase - IBA indolebutyric acid - MK cultivar Meeker - npt II neomycin phosphotransferase - SAMase S-adenosylmethionine hydrolase - TDZ Thidiazuron (N-phenyl-N'-l,2,3-thidiazol-5-ylurea)     

Transgenic Italian ryegrass (Lolium multiflorum) plants from microprojectile bombardment of embryogenic suspension cells

Transgenic forage-type Italian ryegrass (Lolium multiflorum Lam.) plants have been obtained by microprojectile bombardment of embryogenic suspension cells using a chimeric hygromycin phosphotransferase (hph) gene construct driven by riceActl 5 regulatory sequences. Parameters for the bombardment of embryogenic suspension cultures with the particle inflow gun were partially optimized using transient expression assays of a chimeric-glucuronidase (gusA) gene driven by the maizeUbi1 promoter. Stably transformed clones were recovered with a selection scheme using hygromycin in liquid medium followed by a plate selection. Plants were regenerated from 33% of the hygromycin-resistant calli. The transgenic nature of the regenerated plants was demonstrated by Southern hybridization analysis. Expression of the transgene in transformed adult Italian ryegrass plants was confirmed by northern analysis and a hygromycin phosphotransferase enzyme assay.Abbreviations 2,4-D 2,4 Dichlorophenoxyacetic acid - GUS Glucuronidase - Hm Hygromycin - HPH Hygromycin phosphotransferase - MS medium Murashige and Skoog medium - PCR Polymerase chain reaction - X-Gluc 5-Bromo-4-chloro--indolyl--D-glucuronic acid