Transgenic rice plants: Characterization of two generations of seed progeny

Transgenic rice plants have been regenerated from kanamycin-resistant callus of Oryza sativa (cv. Taipei 309) derived from protoplasts electroporated with pCaMVNEO carrying the neomycin phosphotransferase II ( nptII ) gene. Of 6 randomly selected plants, all contained the nptll gene, but only 2 plants expressed NPTII activity. The transgenic plants were significantly shorter, produced fewer tillers, took longer to flower and had reduced fertility compared to non-transformed protoplastderived plants. Fifty-six seeds collected from one transgenic plant expressing NPTII activity germinated on medium containing kanamycin sulphate to give 16 green, first seed generation (R₁) plants. The latter could be divided into 3 groups: (i) Plants which set seed, had normal floret morphology and produced a total of 76 seeds; (ii) Plants which flowered, but which failed to set seed; (iii) Plants which failed to flower, were shorter and had significantly fewer tillers than plants of groups (i) and (ii). The nptII gene was present in all transgenic R₁ plants, but only 8 plants expressed the gene. Phenotypic characteristics, observed in transgenic R₁ plants were also seen in the transforned R₂ plants. These included reduced stature, a longer vegetative phase and reduced fertility compared to non-transformed plants.     

A polyethylene glycol-mediated protoplast transformation system for production of fertile transgenic rice plants

We have established an efficient procedure for protoplast transformation and regeneration of fertile transgenic plants of rice (Oryza sativa L.) cultivars Nipponbare and Taipei 309. Protoplasts were mixed with a plant-expressible hygromycin resistance gene and treated with 25% (w/v) polyethylene glycol. Stringent selection of transformed colonies was applied to 14-day-old regenerated protoplasts in the presence of 95 micromolar of hygromycin B for 12 days. After selection, 450 and 200 resistant colonies were recovered per million treated Taipei 309 and Nipponbare protoplasts, respectively. Southern hybridization analysis of hygromycin-resistant cell lines and regenerated plants indicated that 1 to 10 copies of transferred DNA were integrated at 1 to 4 loci of the rice genome. Southern DNA analysis suggests that the introduced plasmid DNA may form concatemers by intermolecular recombination prior to integration. Four Taipei 309 and 39 Nipponbare transgenic rice plants were regenerated and grown to maturity in the greenhouse. Two Taipei 309 and 35 Nipponbare plants set viable seeds. Agronomic traits of Taipei 309 transgenic plants and inheritance of the hygromycin resistance trait by progeny of the selfed transgenic plants were analyzed.     

Stable germ line transformation of a leafy vegetable crop amaranth (Amaranthus tricolor L.) mediated by Agrobacterium tumefaciens

We have optimized a procedure for genetic transformation of a major leafy vegetable crop, Amaranthus tricolor L., using epicotyl explant co-cultivation with Agrobacterium tumefaciens. Two disarmed A. tumefaciens strains EHA 105 and LBA 4404, both carrying the binary plasmid p35SGUSINT harboring the neomycin phosphotransferase II gene (nptII) and the β-glucuronidase gene (gus), were evaluated as vector systems. The former displayed a higher transforming efficiency. Several key factors influencing the transformation events were optimized. The highest percentage of transformed shoots (24.24%) was achieved using hand-pricked epicotyl explants, a 10-min infection period, with 100 μM acetosyringone-pretreated Agrobacterium culture corresponding to OD₆₀₀???0.6 and diluted to 10⁹ cells ml^?1, followed by 4 d co-cultivation in the regeneration medium. Putative transformed explants capable of forming shoots were selected on medium supplemented with 75 μg?ml^?1 kanamycin, and transient as well as stable glucuronidase expression was determined by histochemical analysis. From a total of 48 selected shoot lines derived from independent transformation events with epicotyl explants co-cultivated with EHA 105, 32 showed positive PCR amplification for both the nptII and gus genes. Germ line transformation and transgene stability were evident in progeny of primary transformed plants (T₀). Among T₁ seedlings of 12 selected transgenic plant lines, kanamycin-resistant and kanamycin-sensitive seedlings segregated in a ratio typical of the Mendelian monohybrid pattern (3:1) as verified by the chi-square (χ ²) test. Southern hybridization of genomic DNA from kanamycin-resistant T₁ transgenic segregants to an nptII probe substantiated stable integration of the transgene. Neomycin phosphotransferase (NPTII) activity was detected in leaf protein extracts of selected T₁ transgenic plants, thereby confirming stable expression of the nptII gene.     

Transformation of eggplant (Solanum melongena L.) using a binary Agrobacterium tumefaciens vector

Summary Kanamycin resistant plants of Solarium melongena L. (eggplant) cv. Picentia were obtained following the cocultivation of leaf explants with Agrobacterium tumefaciens. A disarmed binary vector system containing the neomycin phosphotransferase (NPTII) gene as the selectable marker and chloramphenicol acetyltransferase (CAT) as a reporter gene was utilized. In vitro grown plants were used as sources of explants to produce transgenic plants on selective medium containing 100 mg/l kanamycin. The transformation and expression of the foreign genes was confirmed by DNA hybridizations, leaf disc assays, and by measuring NPTII and CAT enzyme activities. This technique is simple, rapid, efficient, and transgenic eggplants of this commercial cultivar have been transferred to soil where they have flowered and set seed.Abbreviations CAT chloramphenicol acetyltransferase - MS Murashige and Skoog - NPTII neomycin phosphotransferase - NOS nopaline synthase - ZEA zeatin     

Transformation and Characterization of Transgenic Plants of Solanum dulcamara L.--Incidence of Transgene Silencing

A transformation system is described for Solanum dulcamara usingthe supervirulentAgrobacterium tumefaciens strain 1065, carryingboth the ß-glucuronidase (gus) and neomycin phosphotransferaseII (npt II) genes adjacent to the right and left T-DNA borders,respectively. Leaf explants were more efficient for the productionof transformed plants compared to stem explants on medium containing50 mg l^-1of kanamycin sulphate. A 1:10 (v:v) dilution of anovernight culture ofAgrobacterium gave optimal transformationin terms of transgenic plant regeneration. From a total of 174kanamycin-resistant plants selected by their antibiotic resistance,16 failed to exhibit GUS activity. Southern analysis revealedthat these GUS-negative transformants originated from threeindependently transformed cell lines. Restriction enzyme analysesshowed that the GUS-negative plants had both the gus and nptII genes integrated into their genome (one plant had a singlecopy of each gene; the other two plants had multiple copies),with major rearrangement of the gus gene occurring in plantswith several copies of the transgene. GUS-negative plants showedleaf malformations, delayed flowering and a reduction in flower,fruit and seed production compared to GUS-positive and non-transformed(control) plants. Although gene silencing of the gus gene occurred,albeit at a low frequency (9.2%), the transformation systemdescribed generates large numbers of phenotypically normal,stably transformed plants. Copyright 2000 Annals of Botany Company Agrobacterium -mediated transformation, gene silencing, Solanum dulcamara L. (Bittersweet, Woody Nightshade), T-DNA truncation, transgene expression     

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.     

Insect-resistant transgenic Pinus radiata

Transgenic radiata pine (Pinus radiata D. Don) plants containing a Bacillus thuringiensis (Bt) toxin gene, crylAc, were produced by means of biolistic transformation of embryogenic tissue. Using the selectable marker gene nptII and corresponding geneticin selection, 20 independent transgenic lines from five genotypes were established. Over 200 plants regenerated from ten transgenic lines were successfully transferred to soil. The integration and expression of the introduced genes in transgenic tissue and/or plants were confirmed by PCR, Southern hybridisation and neomycin phosphotransferase II (NPTII) and Bt ELISA assays. Bioassays with larvae of the painted apple moth, Teia anartoides, demonstrated that transgenic plants displayed variable levels of resistance to insect damage, with one transgenic line being highly resistant to feeding damage.     

Stable genetic transformation of embryogenic cultures of <Emphasis Type="Italic">Abies nordmanniana</Emphasis> (nordmann fir) and regeneration of transgenic plants

Summary Stable genetic transformation of embryogenic cultures of Abies nordmanniana (Nordmann fir or Caucasian fir) was achieved using the Biolistic^? transformation technology, followed by regeneration of transgenic plants. Selection of the transgenic tissue was based on the antibiotic resistance induced by the neomycin phosphotransferase II gene (npt II), in combination with the antibiotic geneticin. Six transclones were recovered from a total of 215 bombardments. Expression of the β-glucuronidase gene (uidA) was confirmed by histochemical analysis, and expression of npt II was verified by quantification of NPTII protein by enzyme linked immunosorbent assay (ELISA). Both genes were still expressed in the embryogenic tissue after 5 yr of in vitro culture and in mature somatic embryos and plants produced from these cultures. The integration of npt II was confirmed by Southern hybridization in embryogenic tissue after 5 yr of culture. After 5 yr of growth, uidA was still expressed in needles from the transformed trees.     

Production of kanamycin resistant rice tissues following DNA uptake into protoplasts

Rice protoplasts (Oryza sativa L. v Taipei 309) have been transformed to kanamycin resistance following uptake of pCaMVNEO induced by electroporation, PEG and PEG combined with electroporation. Protoplast-derived colonies selected on medium containing 100 g/ml of kanamycin expressed NPTII activity, and contained DNA that hybridised to a 1.0 Kb BamHI fragment of pCaMVNEO carrying the NPTII gene. Expression of the transformation frequency in relative terms (number of kanamycin resistant colonies compared to the number of colonies on kanamycin free medium) gave frequencies of 26.1%, 8.5% and 2.9% following electroporation, PEG and PEG with electroporation respectively. In absolute terms (number of kanamycin resistant colonies compared to the number of protoplasts plated) these represent frequencies of 19.9×10^–5, 9.0×10^–5 and 2.7×10^–5 for the three procedures.     

Anther culture in rice: IV. The effect of abscisic acid on plant regeneration

The effect of abscisic acid (ABA) on plant regeneration in anther-derived calli of rice Oryza sativa L. varieties Taipei 177, Taipei 309 and Fujisaka 5 was studied.ABA at concentrations up to 4×10^–6 M stimulated fresh weight increase in Taipei 309 and Fujisaka 5 while higher concentrations effected corresponding weight decreases in the three varieties tested. Relatively high ABA concentrations resulted in decreased callus size and production of more compact and whitish calli. ABA increased the frequency of calli producing green plants in Taipei 309 and the average green plant regeneration in all varieties tested.Abbreviations ABA Abscisic acid - K Kinetin - NAA Naphthalene acetic acid     

Transformation of Acinetobacter sp. Strain BD413 by Transgenic Sugar Beet DNA

The ability of Acinetobacter sp. strain BD413(pFG4ΔnptII) to take up and integrate transgenic plant DNA based on homologous recombination was studied under optimized laboratory conditions. Restoration of nptII, resulting in kanamycin-resistant transformants, was observed with plasmid DNA, plant DNA, and homogenates carrying the gene nptII. Molecular analysis showed that some transformants not only restored the 317-bp deletion but also obtained additional DNA.     

Agrobacterium tumefaciens — mediated Transformation of Rice Using Coleoptile and Mature Seed-derived Callus

Morphologically normal, fertile transgenic rice plants (Oryza sativa L cv Taipei 309) were obtained using Agrobacterium tumefaciens strain LBA4404 harbouring the plasmid pTOK233. Two transgenic systems were developed. The first involved callus derived from mature seeds (scutellum) and, the second, used callus derived from 4-d-old coleoptiles. This is the first time that a coleoptile-based system has been used for producing transgenic rice plants. In the development of coleoptile based system, we have evaluated the effect of the length of callus induction period of the coleoptiles on transformation efficiency. The proportion of GUS positive plants was 23% in coleoptile experiment while in mature seed experiments it was 21%. Southern analyses were done to confirm the presence of the transgene. It was found that one to three copies of the transgene integrated in the transgenic plants.     

Agrobacterium-mediated transformation and plant regeneration of buckwheat (Fagopyrum esculentum Moench.)

Genetic transformation of buckwheat (Fagopyrum esculentum Moench.) and regeneration of transgenic plants were obtained by using Agrobacterium tumefaciens strains as vectors. Buckwheat cotyledons were excised from imbibed seeds, co-cultivated with A. tumefaciens and subjected to previously reported protocols for callus and shoot regeneration. The transformation with oncogenic strains was confirmed by opine and DNA analyses of tumour tissue extracts. Plants were regenerated on cotyledon fragments incubated with strain A281, harboring pGA472, which carries the neomycin phosphotransferase II gene for kanamycin resistance. The transformation of resistant shoot clones was confirmed by NPTII enzyme assay and DNA hybridization. A large number of transformed shoots were rooted and fertile plantlets were raised in the greenhouse. Transgenic plants comprised pin and thrum clones, which were allowed to cross-pollinate. In about 180 R₂ seeds tested for kanamycin resistance, the ratio of resistant to sensitive seedlings was roughly 3:1.Abbreviations BAP 6-benzylaminopurine - 2,4-D dichloro-phenoxyacetic acid - 2iP 6-(, ,-dimethylallyl-amino)-purine - IBA indole-3-butyric acid - IAA indole-3-acetic acid - Km kanamycin - NPTII neomycin phosphotransferase II     

Expression of a chimeric nitrate reductase gene in transgenic lettuce reduces nitrate in leaves

 Transgenic plants of four glasshouse-grown lettuce cultivars ('Cortina', 'Evola', 'Flora' and 'Luxor') were obtained by co-cultivating excised cotyledons with Agrobacterium tumefaciens. The Agrobacterium strain LBA4404 contained the binary vector pBCSL16, which carried a nitrate reductase (nia) cDNA linked to CaMV promoter and terminator sequences, and the neomycin phosphotransferase II (nptII) gene. Transformed shoots were selected by their ability to root on medium containing kanamycin sulphate, by a positive NPTII assay and by PCR analysis. The presence of the nia cDNA in transgenic lettuce was confirmed by nitrate reductase (NR) enzymatic assay, a reduction in the nitrate content of leaves and by Southern hybridisation. PCR analysis of cDNA fragments from transgenic plants confirmed that both nia and nptII genes were expressed in first seed-generation (T1) lettuce plants. The commercial importance of reduced nitrate concentrations in lettuce is discussed. Received: 7 January 1998 / Revision received: 24 February 1998 / Accepted: 22 March 1999     

PEG- and electroporation-induced transformation in Nicotiana tabacum: influence of genotype on transformation frequencies

Summary Experimental parameters for direct gene transfer with recombinant DNA encoding neomycin phosphotransferase II (NPTII) under control of eukaryotic expression signals were established. The introduced gene was shown by the growth of transformants on media containing kanamycin, by genomic blotting and by assaying NPTII activity. Leaf protoplasts from three green genotypes of varieties xanthii and petit havanna, and from four plastome-encoded albino genotypes of Nicotiana tabacum were analyzed with respect to cell division kinetics and yield of kanamycin-tolerant colonies after direct gene transfer. No clear correlation was found between the time of onset of cell division and transformation frequency.     

Salinity, oxidative stress and antioxidant responses in shoot cultures of rice

When shoot cultures derived from salt-sensitive Oryza sativavar. Taipei 309 were grown at 25C in medium containing 0.35M NaCl, responses to possible oxidative stress in the earlystages of exposure were observed. Overall levels of Mn-superoxidedismutase activity, Cu, Zn-superoxide dismutase activity andH₂O₂ were significantly elevated. After 1 d there was a notabledecline in tissue concentrations of GSH and a correspondingincrease in GSSG. However, after a further day, concentrationsof GSH and GSSG returned to concentrations normally encounteredin control cultures. Activities of ascorbate peroxidase andcatalase were similar whether the shoots were grown in the presenceor absence of NaCl. In contrast, there was an early increasein glutathione reductase activity in NaCl-exposed cultures,and no indication of extensive increases in lipid peroxidation.Thus although some indications of oxidative stress accompanyexposure of this salt-sensitive rice variety to salinity, mechanismsappear to exist within its shoot tissue to permit the toleranceof such oxidative stress. Key words: Salinity stress, hydrogen peroxide, glutathione, antioxidant enzymes, Oryza sativa     

MicroTom—a high-throughput model transformation system for functional genomics

We have developed a high-throughput Agrobacterium-mediated transformation model system using both nptII and the 5-enolpyruvylshikimate-3-phosphate synthase gene from Agrobacterium tumefaciens strain CP4 (cp4) based selections in MicroTom, a miniature rapid-cycling cherry tomato variety. With the NPTII selection system, transformation frequency calculated as independent transgenic events per inoculated explant ranged from 24 to 80% with an average of 56%, in industrial production scale transformation experiments. For CP4, with glyphosate selection, the average transformation frequency was 57%. Stable transformation frequency was positively correlated with transient expression (R=0.85), and variable with the genes of interest. DNA integration and germline transformation were confirmed by biological assay, Southern Blot analysis, and R₁ phenotype segregation. Transgene expression was observed in leaf, root, stem, flower, and fruit tissues of the transgenic plants. Ninety-five percent of transgenic events coexpressed two introduced genes based on β-glucuronidase (GUS) and neonmycin phosphotransferase II (NPTII) expression. Seventy-five percent of transgenic events contained one to two copies of the introduced uidA (GUS) gene based on Southern analysis. Transgenic plants from the cotyledon explants to the transgenic plants transferred to soil were produced within about 2–3 months depending on the genes of interest. The utility of this MicroTom model transformation system for functional genomic studies, such as identification of genes related to important agricultural traits and gene function, is discussed.     

Fertile transgenic Indica rice plants obtained by electroporation of the seed embryo cells

We have obtained fertile transgenic plants of Indica rice variety IR36, by using electroporation to transfer the neomycin phosphotransferase II (nptII) gene into cells of mature embryos. Resistant calli were selected in the presence of 30 g/ml G418. Nearly thirty transgenic plants were regenerated within three months after transformation. Many of them yielded seeds following self-pollination. Data from molecular analysis and enzyme assay proved that the foreign gene was stably integrated into the genome of resistant calli, R0 and R1 plants, and also expressed. Mendelian segregation of the nptII gene was observed in R1 progeny plants.Abbreviations NOS nopaline synthase - NPTII and nptII neomycin phosphotransferase II - OCS octopine synthase - Km kanamycin     

Relationship between Coleoptile Elongation and Alcoholic Fermentation in Rice Exposed to Anoxia. I. Importance of Treatment Conditions and Different Tissues

The relationship between coleoptile elongation and alcoholicfermentation of rice under anoxia is examined using seeds either:(a) N₂ flushed during submergence, (b) incubated in stagnantdeoxygenated agar at 0·1% w/v to simulate the stagnantconditions of waterlogged soil, or (c) incubated in waterloggedsoil. Coleoptile elongation growth was greater for N₂ flushing> stagnant agar > soil; seed survival was also greatestin this order over 1-5 d. Ethanol concentrations in coleoptiles and intact seeds (cv.IR42) were approximately 300 and 100 mol m^-3 respectively whenseeds were grown 3 d in stagnant agar, however 92% of the ethanolin seeds diffused into the external medium when solutions weremixed for 5-10 s. Coleoptile growth under anoxia was relatedto rates of ethanol synthesis (R_E) in different treatments;there was greater coleoptile growth and R_E for seeds in N₂ flushedsolutions than in stagnant deoxygenated agar. Coleoptile growthof individual seeds was also related to the R_E of each seedat 2-3 d after anoxia (r² = 0·46). Analysis of different tissues was important in evaluating growthand metabolism of coleoptiles. Although the coleoptile onlyaccounted for 0·7% of seed dry weight at 3 d after anoxia,it contained 21% of the ethanol produced by rice seeds. Therewere also three-fold higher rates of R_E on a fresh weight basisin expanding tissues in the base of the coleoptile relativeto the elongated tissues at the apex. Results are discussedin terms of the importance of environmental conditions usedto impose anoxia, quantification of R_E in specific tissues andthe possibility that under stagnant conditions high ethanolconcentrations in tissues may limit R_E and coleoptile growth.Copyright1994, 1999 Academic Press Anoxia, ethanol, alcoholic fermentation, Oryza sativa L., rice, submergence