Fertile transgenic barley generated by direct DNA transfer to protoplasts

We report the generation of transgenic barley plants via PEG-mediated direct DNA uptake to protoplasts. Protoplasts isolated from embryogenic cell suspensions of barley (Hordeum vulgare L. cv Igri) were PEG-treated in a solution containing a plasmid which contained the neomycin phosphotransferase (NPT II) gene under the control of the rice actin promoter and the nos terminator. Colonies developing from the treated protoplasts were incubated in liquid medium containing the selective antibiotic G418. Surviving calli were subsequently transferred to solid media containing G418, on which embryogenic calli developed. These calli gave rise to albino and green shoots on antibiotic-free regeneration medium. NPT II ELISA revealed that approximately half of the morphogenic calli expressed the foreign gene. In total, 12 plantlets derived from NPT-positive calli survived transfer to soil. Southern hybridization analysis confirmed the stable transformation of these plants. However, the foreign gene seemed to be inactivated in plants from one transgenic line. Most of the transgenic plants set seed, and the foreign gene was transmitted and expressed in their progenies, which was ascertained by Southern hybridization and NPT II ELISA.     

Use of bar as a selectable marker gene and for the production of herbicide-resistant rice plants from protoplasts

We have used the bar gene in combination with the herbicide Basta to select transformed rice (Oryza sativa L. cv. Radon) protoplasts for the production of herbicide-resistant rice plants. Protoplasts, obtained from regenerable suspension cultures established from immature embryo callus, were transformed using PEG-mediated DNA uptake. Transformed calli could be selected 2–4 weeks after placing the protoplast-derived calli on medium containing the selective agent, phosphinothricin (PPT), the active component of Basta. Calli resistant to PPT were capable of regenerating plants. Phosphinothricin acetyltransferase (PAT) assays confirmed the expression of the bar gene in plants obtained from PPT-resistant calli. The only exceptions were two plants obtained from the same callus that had multiple copies of the bar gene integrated into their genomes. The transgenic status of the plants was varified by Southern blot analysis. In our system, where the transformation was done via the protoplast method, there were very few escapes. The efficiency of co-transformation with a reporter gene gusA, was 30%. The T_o plants of Radon were self-fertile. Both the bar and gusA genes were transmitted to progeny as confirmed by Southern analysis. Both genes were expressed in T₁ and T₂ progenies. Enzyme analyses on T₁ progeny plants also showed a gene dose response reflecting their homozygous and heterozygous status. The leaves of T_o plants and that of the progeny having the bar gene were resistant to application of Basta. Thus, the bar gene has proven to be a useful selectable and screenable marker for the transformation of rice plants and for the production of herbicide-resistant plants.     

Influence of primary callus induction conditions on the establishment of barley cell suspensions yielding regenerable protoplasts

Summary With the aim of the development of a culture method for efficient plant regeneration from barley (Hordeum vulgare L.) protoplasts, we examined several culture conditions for primary calli from immature embryos of cvs. Dissa and Igri, which were used for initiation of cell suspensions. Among the primary callus culture conditions tested, growth condition of donor plants had a great impact on these efficiencies; Igri protoplasts derived from embryos of plants grown in a greenhouse gave rise to albino plants and few green shoots while several cell lines originating from embryos of plants grown in a growth chamber (16h light, 12°C) yielded protoplasts developing into green plants. In contrast, cell suspensions were produced at higher frequencies from calli derived from embryos of greenhouse-grown Dissa plants. In Igri, increased levels of 2,4-dichlorophenoxyaceticacid (2,4-D) significantly reduced the efficiency of cell suspension establishment and plant regeneration from protoplasts was achieved only with suspension cells derived from calli induced at the lowest level (2.5 mg/l), while the effect of the 2,4-D concentration was not clear in Dissa. The developmental stage of immature embryos also affected the efficiency of cell suspension establishment, and the optimal embryo size was determined to be approximately 1mm in diameter. These results demonstrate the importance of callus induction conditions for successful barley protoplast culture.     

Development of transgenic pearl millet (Pennisetum glaucum (L.) R. Br.) plants resistant to downy mildew

Transgenic pearl millet lines expressing pin gene—exhibiting high resistance to downy mildew pathogen, Sclerospora graminicola—were produced using particle-inflow-gun (PIG) method. Shoot-tip-derived embryogenic calli were co-bombarded with plasmids containing pin and bar genes driven by CaMV 35S promoter. Bombarded calli were cultured on MS medium with phosphinothricin as a selection agent. Primary transformants 1T₀, 2T₀, and 3T₀ showed the presence of both bar and pin coding sequences as evidenced by PCR and Southern blot analysis, respectively. T₁ progenies of three primary transformants, when evaluated for downy mildew resistance, segregated into resistant and susceptible phenotypes. T₁ plants resistant to downy mildew invariably exhibited tolerance to Basta suggesting co-segregation of pin and bar genes. Further, the downy mildew resistant 1T₁ plants were found positive for pin gene in Southern and Northern analyses thereby confirming stable integration, expression, and transmission of pin gene. 1T₂ progenies of 1T₀ conformed to dihybrid segregation of 15 resistant:1 susceptible plants.     

Characterization of transgenic rice plants that express rgp1, the gene for a small GTP-binding protein from rice

 The rgp1 gene, which encodes a small GTP-binding protein from rice, was introduced into rice protoplasts by electroporation. Transformed protoplasts were cultured on liquid protoplast-culture medium for 1 month, and then cells that had proliferated were transferred to a selection medium that contained 50 mg/l hygromycin B. Among 50 colonies that were selected and transferred to regeneration medium, 3 colonies generated shoots. However, two of the three shoots failed to form roots and ceased growing. A single regenerated shoot that formed roots was planted in soil and transferred to a greenhouse. Southern hybridization showed that the regenerated plant harbored a single copy of the introduced gene. The transformant (T₀) plant was shorter than the controls, it developed three times as many tillers as controls, it developed three times as many tillers as control plants but it produced mostly sterile seeds. In a test of hygromycin resistances, viable seeds segregated into resistant and sensitive seedings at a ratio of approximately 1 : 3. The progeny (T₁) plants were short with many tillers, and some produced seeds normally. The T₂ seedlings grew more rapidly than control seedlings for the first 28 days after germination, but control plants subsequently outgrew the T₂ plants. Northern blotting analysis revealed that the rgp1 gene in T₂ plants was expressed consitutively throughout all developmental stages. The results suggest that the observed phenotypic changes were due to expression of the exogenous rgp1 gene. Received: 21 September 1997/Accepted: 31 March 1998     

Transformation of barley scutellum protoplasts: regeneration of fertile transgenic plants

 A system for barley transformation via polyethyleneglycol-mediated DNA uptake into protoplasts isolated directly from scutella and the regeneration of transgenic plants is reported. Scutellum protoplasts (cv. Clipper, an Australian malting cultivar) were co-transformed with plasmids Act 1-DGUS, containing the marker uidA gene, and pCaIneo, which contains the selectable marker neomycin phosphotransferase gene. Protoplast-derived calluses were selected on medium containing the antibiotic G418 (25 and 15 mg.l^–1) and macroscopic antibiotic resistant colonies were recovered. Fertile plants were regenerated from a callus line and molecular analysis confirmed transgene integration. Received: 11 October 1999 / Revision received: 11 February 2000 / Accepted: 11 February 2000     

Inheritance of tissue-specific expression of barley hordein promoter-uidA fusions in transgenic barley plants

 Barley (Hordeum vulgare L.) hordeins are alcohol-soluble redundant storage proteins that accumulate in protein bodies of the starchy endosperm during seed development. Strong endosperm-specific β-glucuronidase gene-(uidA; gus) expression driven by B₁- and D-hordein promoters was observed in stably transformed barley plants co-transformed with the selectable herbicide resistance gene, bar. PCR analysis using DNA from calli of 22 different lines transformed with B₁- or D-hordein promoter-uidA fusions showed the expected 1.8-kb uidA fragment after PCR amplification. DNA-blot analysis of genomic DNA from T₀ leaf tissue of 13 lines showed that 12 (11 independent) lines produced uidA fragments and that one line was uidA-negative. T₁ progeny from 6 out of 12 independent regenerable transgenic lines tested for uidA expression showed a 3 : 1 segregation pattern. Of the remaining six transgenic lines, one showed a segregation ratio of 15 : 1 for GUS, one expressed bar alone, one lacked transmission of either gene to T₁ progeny, and three were sterile. Stable GUS expression driven by the hordein promoters was observed in T₅ progeny in one line, T₄ progeny in one line, T₃ progeny in three lines and T₂ or T₁ progeny in the remaining two fertile lines tested; homozygous transgenic plants were obtained from three lines. In the homozygous lines the expression of the GUS protein, driven by either the B₁- or D-hordein promoters, was highly expressed in endosperm at early to mid-maturation stages. Expression of bar driven by the maize ubiquitin promoter was also stably transmitted to T₁ progeny in seven out of eight lines tested. However, in most lines PAT expression driven by the maize ubiquitin promoter was gradually lost in T₂ or later generations; one homozygous line was obtained. In contrast, six out of seven lines stably expressed GUS driven by the hordein promoters in T₂ or later generations. We conclude that the B₁- and D-hordein promoters can be used to engineer, and subsequently study, stable endosperm-specific gene expression in barley and potentially to modify barley seeds through genetic engineering. Received: 28 May 1998 / Accepted: 19 December 1998     

Over-expression of the cloned rice thaumatin-like protein (PR-5) gene in transgenic rice plants enhances environmental friendly resistance to Rhizoctonia solani causing sheath blight disease

 A 1.1-kb DNA fragment containing the coding region of a thaumatin-like protein (TLP-D34), a member of the PR-5 group, was cloned into the rice transformation vector pGL2, under the control of the CaMV 35S promoter. The Indica rice cultivars, ‘Chinsurah Boro II’, ‘IR72’, and ‘IR51500’ were transformed with the tlp gene construct by PEG-mediated direct gene transfer to protoplasts and by biolistic transformation using immature embryos. The presence of the chimeric gene in T₀, T₁, and T₂ transgenic plants was detected by Southern blot analysis. The presence of the expected 23-kDa TLP in transgenic plants was confirmed by Western blot analysis and by staining with Coomassie Brilliant Blue. Bioassays of transgenic plants challenged with the sheath blight pathogen, Rhizoctonia solani, indicated that over-expression of TLP resulted in enhanced resistance compared to control plants. Received: 11 August 1998 / Accepted: 26 August 1998     

Transformation and expression of a stilbene synthase gene of Vitis vinifera L. in barley and wheat for increased fungal resistance

 Transformation of barley and wheat via particle bombardment with a gene derived from Vitis vinifera L. (Vst1 gene) resulted in the expression of the foreign phytoalexin, resveratrol, in the transformed plants. Transgenic barley plants were regenerated from microspores and transgenic wheat plants from immature embryos were both selected on Basta. Stable integration of the gene in the genomes of transgenic barley and wheat plants, as well as their progeny, was analysed by Southern-blot analysis. The induction of the stilbene synthase promoter and the transient expression of stilbene synthase-specific mRNA after induction by wounding and infection were proofed in T₁ and T₂ progeny plants. An enhanced expression of the Vst1 gene under control of the stilbene synthase promoter was observed with enhancer sequences from the cauliflower mosaic virus 35s (CaMV 35s) promoter. The enzyme activity of the stilbene synthase was analysed in T₁ progeny plants. The first pathological results indicated an increased resistance of transgenic barley plants to Botrytis cinerea used as a model experimental system. Received: 5 November 1997 / Accepted: 11 November 1997     

Selection<Emphasis Type="Italic">of nptll</Emphasis> transgenic sweetpotato plants using G<Subscript>418</Subscript> and paromomycin

We have used two aminoglycosides, G₄₁₈ and paromomycin, to develop a reliable selection system fornptll transgenic sweet-potato (Ipomoea batatas (L.) Lam.). Embryogenic calli derived from shoot apical meristems were bombarded with gold particles coated with pCAMBIA2301, which contained thenptll andgusA genes. When compared on a kill curve that was based on calli proliferation and cell viability, G₄₁₃-selection proved to be more efficient and had fewer escapes than kanamycin. These bombarded expiants were then selected on G₄₁₈-containing media. The total time required from bombardment to plant establishment in soil was seven to nine months. Multiple copies of the transgene were integrated into the sweetpotato genome. Northern analysis confirmed transgene expression in the regenerated plants, and a paromomycin assay demonstrated that thenptll gene was functionally expressed in transformed sweetpotato. These molecular analyses and assays all showed that selection with G₄₁₈ and paromomycin is reliable. So far, we have produced 69 transgenic events with this system, at a transformation frequency of approx. 1.1%. That efficiency is based on the number of transgenic plants obtained and the amount of calli bombarded. Thus, this selection method that combines G₄₁₈ with paromomycin is now available for selectingnptll transgenic sweetpotato.     

Expression of Human Growth Hormone by the Eukaryotic Alga, Chlorella

A method to use Chlorella to express a recombinant heterologous protein that can be recovered from the extracellular medium has been developed. Plasmids are constructed with an extracellular secretion signal sequence inserted between a promoter region and a gene for human growth hormone (hGH). The plasmids also contain a Kan^r region which confers resistance to the antibiotic G418. Protoplasts are prepared by enzymatic treatment, and the plasmid is introduced by incubation of the protoplasts with polyethylene glycol and dimethyl sulfoxide. Cells are then grown in the presence of G418, and the medium is collected from 6 days after transfection. hGH is measured by immunoassay, and values for expressed hGH of about 200–600 ng/ml are obtained. Received: 5 November 1998 / Accepted: 25 January 1999     

Oryzacystatin Exogenously Introduced into Protoplasts and Regeneration of Transgenic Rice

Oryzacystatin (OC) is a proteinaceous cysteine proteinase inhibitor involved in the biodefense of rice seeds. To create transgenic rice plants with increased OC activity, we introduced an OC expressing vector into rice protoplasts and obtained transformed calli. The expression vector contained a bacterial inaA DNA fragment in the 3′-noncoding region as a tag to distinguish the introduced DNA from the intrinsic OC gene. The OC vector and a selection marker gene conferring hygromycin resistance were used together to transfect into rice protoplasts. A number of hygromycin-resistant calli were obtained and studied by polymerase chain reaction and genomic Southern blotting to find if the exogenous OC gene had been integrated. The calli were studied by northern blotting as well to examine mRNA expression. The results showed that integration and expression of the introduced OC gene occurred in 51% and 27%, respectively, of 156 subcultures from 15 hygromycin-resistant calli. As a final step, transgenic rice plants were regenerated from the calli expressing OC. Leaves and seeds from the plants had higher OC activities than those from nontransgenic plants.     

黑果枸杞原生质体培养及植株再生

该研究以黑果枸杞(Lycium ruthenicum)无菌苗为材料,建立了愈伤组织来源的原生质体再生体系,采用ISSR和FCM技术对再生植株进行了遗传稳定性分析。结果表明：(1)黑果枸杞叶片愈伤组织是产生原生质体的最好材料,在含0.5 mg·mL^-1甘露醇的酶液中,继代1次的叶片愈伤组织中原生质体产量为7.77×10⁶个·g^-1,活力为92%。(2)改良MS培养基 固体液体双层培养(MS₂ 固液双层)是培养原生质体的最好方式,培养10 d的原生质体分裂频率为45.9%,培养20 d的细胞团形成频率为22.9%。(3)在1.5 mg·mL^-1 6 BA+0.1 mg·mL^-1 IBA+MS培养基中,叶片愈伤组织产生的原生质体可分化获得再生植株。(4)ISSR分析显示,再生植株的平均遗传相似系数为0.88;FCM显示再生植株为二倍体,与亲本植株一致。该研究结果为进一步研究枸杞体细胞杂交技术转移野生植物抗逆遗传性状提供科学依据,为枸杞优良品种的选育奠定了基础。     

Co-bombardment,integration and expression of rice chitinase and thaumatin-like protein genes in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> cv. Conlon)

Pathogenesis-related (PR) proteins associated with degradation of structural components of pathogenic filamentous fungi were overexpressed in the two-rowed malting barley (Hordeum vulgare L.) cultivar Conlon. Transgenes were introduced by co-bombardment with two plasmids, one carrying a rice (Oryza sativa L.) chitinase gene (chi11) and another carrying a rice thaumatin-like protein gene (tlp). Each gene was under the control of the maize ubiquitin (Ubi1) promoter. Fifty-eight primary transformants from three independent transformation events were regenerated. T₁ plants with high rice chi11 and tlp protein expression levels were advanced to identify T₂ homozygotes by herbicide spray and subjected to further molecular analyses. T₃ progeny from one event (E2) had stable integration and expression of the rice chi11 and tlp while those from the other events (E1 and E3) showed stable integration only of tlp. The successful production of these lines overexpressing the antifungal chi and tlp proteins provides materials to test the effects of these genes on a variety of fungal diseases that attack barley and to serve as potential additional sources of disease resistance.     

Transgenic Japanese lawngrass (Zoysia japonica Steud.) plants regenerated from protoplasts

Transgenic Japanese lawngrass (Zoysia japonica Steud.) plants were generated by means of polyethylene glycol (PEG)-mediated direct gene transfer into protoplasts. The plasmid pBC1 was used to deliver the hygromycin phosphotransferase (hph) and β-glucuronidase (gus) genes into protoplasts. Selection with a high concentration (400 mg/l) of hygromycin yielded a number of resistant calli and about 400 plants were generated. Polymerase chain reaction (PCR) and Southern hybridization analyses revealed that all of then plants tested contained introduced genes. The gus gene regulated by the maize alcohol dehydrogenase-1 (Adh 1) promoter was expressed in the leaves and roots of transgenic Japanese lawngrass plants. Received: 13 December 1996 / Revision received: 9 June 1997 / Accepted: 2 September 1997     

Intergeneric somatic hybridization of rice (Oryza sativa L.) and barley (Hordeum vulgare L.) by protoplast fusion

An intergeneric somatic hybrid was obtained upon fusion of protoplasts of rice and barley. Protoplasts isolated from suspension cultures of rice cells were fused by electrofusion with protoplasts that had been isolated from young barley leaves. Some of the resultant calli formed green spots and shoots. Only one shoot formed roots, and it was subsequently successfully transferred to soil in a greenhouse. Its morphology closely resembled that of the parental rice plant. Cytological analysis indicated that the plant had both small chromosomes from rice and large chromosomes from barley. Southern hybridization analysis with a fragment of the tryptophan B (trpB) gene revealed both a rice-specific band and a barley-specific band. Mitochondrial (mt) and chloroplast (cp) DNAs were also analyzed using the same method. The plant was shown to contain novel mitochondrial and chloroplast sequence rearrangements that were not detected in either of the parents. Received: 5 March 1997 / Revision received: 4 September 1997 / Accepted: 13 September 1997     

Parameters influencing transient and stable transformation of barley (Hordeum vulgare L.) protoplasts

Cat gene expression has been investigated following PEG-mediated plasmid uptake into barley protoplasts. The uptake conditions optimised for transient expression were employed for stable transformation. Transformed protoplast-derived calli of the cvs. Dissa and Igri, were selected on medium containing G418 at 40 g ml^–1 or kanamycin sulphate at 250 g ml^–1. Absolute transformation frequencies of 28.9×10^–5 and 21.3×10^–5 were recorded for Dissa with kanamycin sulphate and G418 selection, respectively. The frequency for Igri was 11.5×10^–5 with G418 selection. Antibiotic resistant protoplast-derived colonies expressed NPTII activity; Southern hybridisation confirmed integration of the nptII gene into barley genomic DNA.Abbreviations ABA abscisic acid - AC-CAP acetylated chloramphenicol - BAP 6-benzylaminopurine - cat chloramphenicol acetyltransferase gene - CAT chloramphenicol acetyltransferase activity - CaMV cauliflower mosaic virus - CAP chloramphenicol, 2,4-d-2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - G418 Geneticin - gus -glucuronidase gene - HEPES (N[2-hydroxyethyl] piperazine-N-[2-ethanesulphonic acid]) - IAA indole acetic acid - MES 2-N-morpholinoethane sulphonic acid - NAA -naphthaleneacetic acid - npt II neomycin phosphotransferase gene - NPTH neomycin phosphotransferase activity - PEG polyethylene glycol - SCV settled cell volume     

Evaluation of selectable markers for rice transformation

A variety of expression systems and selection régimes have been developed to transform plants such as tobacco, petunia, and tomato. We investigated several of these to determine whether the promoters and selectable markers used in dicotyledonous plants are suitable for selecting transformed rice callus. We compared transient expression driven by constitutive and regulated promoters in rice (Oryza sativa) protoplasts and found that the 2′ promoter of the octopine T-DNA is approximately 3 to 4 times more efficient than the CAMV 35S promoter, 10 times more efficient than the nos promoter and the 1′ promoter, and more than 100 times better than two other regulated plant promoters. Similar results were obtained in tobacco (Nicotiana tabacum) protoplasts with the exception that the nos promoter was expressed nearly 10 times better in rice. Further studies demonstrated that rice callus growth is sensitive to low concentrations of methotrexate, phosphinothricin, and bleomycin, and to moderate concentrations of G418 and hygromycin, but is only partially inhibited by relatively high concentrations of kanamycin. Finally, we tested the ability of stably introduced resistance genes to protect callus against some of the selective agents. Genes that inactivated phosphinothricin or G418 permitted transformed calli to grow almost unimpeded on toxic concentrations of these selective agents. However, a gene conferring resistance to methotrexate could not be used to select for activily growing transformants. Southern analysis of the transformed cell lines demonstrated that 50% of the transformants contained a single plasmid copy and that nearly all integrated copies showed rearrangements. These results on the use of selectable markers in rice should facilitate efforts to obtain transformants of this important grain.