干旱耐逆基因（HS1）转化甘薯获得转基因植株

以甘薯（1pomoeabatatas（L.）Lam．）品种栗子香的胚性悬浮细胞为受体材料,用根癌农杆菌介导法,获得了表达除草剂抗性基因bar基因的转HSl基因甘薯植株。共计380个遗传转化的胚性细胞团,在添加2mg／L2．4-D、100mg／L Carb和10mg／L Glu（glufosinate）的固体Ms培养基上选择培养9周后,得到了12个Glu抗性愈伤组织。将这些抗性愈伤组织转移到添加1mg／L ABA、100mg／L羧苄青霉素和10mg／L Glu的固体MS培养基上,其中的3个抗性愈伤组织再生出拟转基因植株。PCR鉴定它们为转基因植株。Southern blot分析表明,HS1基因已整合到基因组中。转基因植株具有稳定的除草剂抗性。结薯观察实验结果表明,转基因植株结薯正常。     

Transgenic Plants of Colonial Bentgrass from Embryogenic Callus via Agrobacterium-mediated Transformation

Colonial bentgrass (Agrostis tenuis Sibth. Fl. Oxen.) is a cool-season turfgrass used on fairways in golf courses. The object of this study was to develop a more efficient, reliable and repeatable approach in transforming the grass using Agrobacterium (strain LBA4404), in which -glucuronidase (gus) gene was used as a reporter and hygromycin phosphotransferase (hpt) gene as a selectable marker. This vector was effective in transforming 7-week-old calluses derived from mature seeds cultured on MS medium supplemented with 2,4-D. A two-step solid medium selection with increasing hygromycin concentration (from 50 to 70 mg l^–1) was used to obtain resistant calluses. Hundreds of transgenic plants have been produced from several independent transformed calluses. The presence of functional -glucuronidase (GUS) was detected in hygromycin-resistant calluses, young leaves and roots of transgenic plants. The transgenic plants collected from greenhouse showed strong resistance to 50 mg l^–1 hygromycin solution. Four putative transgenic plants and one control plant were randomly chosen and analyzed by Southern blot analysis. Bands corresponding to the hpt gene were clearly shown in transgenic plants.     

Transgenic plants of Agrostis alba obtained by electroporation-mediated direct gene transfer into protoplasts

A system for genetic transformation of Agrostis alba plants by electroporation-mediated DNA transfer to protoplasts is described. The npt II gene was used as a selectable marker. Selection with 20 mg/1 G418 (geneticin) yielded a total of over 50 resistant cell colonies from three independent experiments. Overall frequency of resistant colony formation was 1–3 × 10^–6 based on the number of protoplasts plated and 1–2 × 10^–5 based on the number of cell colonies recovered. Subsequent subcultures led to the development of plants with an apparently normal morphology. DNA analysis (PCR and Southern hybridization) and enzymatic analysis showed that the G418 resistant plants carried the transgene and expressed it. This is the first successful genetic transformation of an economically important temperate grass, Agrostis.     

Transformation of haploid, microspore-derived cell suspension protoplasts of rice (Oryza sativa L.)

We compared the transient activity of three cereal gene-derived promoter-gus fusions and the efficiency of selection mediated by three different selectable genes in a polyethylene glycol transformation system with haploid cell suspension protoplasts of rice. The maize ubiquitin promoter was found to be the most active in transformed protoplasts, and selection on ammonium glufosinate mediated by the bar gene was the most efficient for producing resistant calluses. Cotransformation of protoplasts with two separate plasmids carrying the gus and the bar genes, at either a 21 or 11 ratio, led to 0.8 × 10^–5 and 1.6 × 10^–5 resistant callus recovery frequencies and 59.7 and 37.9 cotransformation efficiencies respectively. No escapes were detected in dot blot analyses of 100 resistant calluses with a probe consisting of the bar coding region. Cotransformation efficiency, based on resistance to basta and -glucuronidase staining of the leaf tissue of 115 regenerated plants, was 47%. Resistance tests and Southern analysis of seed progenies of three diploid transgenic plants demonstrated homozygous integration of multiple copies of the transgene at one locus at least in the first plant, heterozygous integration at one locus in the second plant and heterozygous integration at two loci in the third plant.Abbreviations PEG polyethylene glycol - T₀ regenerated transgenic plant - GUS -glucuronidase - CaMV cauliflower mosaic virus - ARE anaerobic responsive element - OCS octopine synthase - T₁ first generation progeny of transgenic plants     

Organogenesis of anther-derived calluses in long-term cultures of Oenothera hookeri de Vries

Anthers of O. hookeri containing uninucleate microspores were cultured, in vitro, at 25°C (16 hours photoperiod) on solid MS medium. After 10–15 days, on media with 2,4-dichlorophenoxyacetic acid, 1-naphthaleneacetic acid and 6-benzylaminopurine, anthers developed friable calluses. After unsuccessful treatments on embryogenic-and/or organogenic-induction media, calluses were placed on a hormone-free MS medium for 24 months with routine transfers every 3 weeks. After this period, the calluses developed buds and subsequently plants. Ro generation plants, were morphologically distinct.Abbreviations BA 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxiacetic acid - IBA indole-3-butyric acid - MS Murashige & Skoog (1962) medium - NAA 1-naphthaleneacetic acid     

Transgenic Sugarcane with a cry1Ac Gene Exhibited Better Phenotypic Traits and Enhanced Resistance against Sugarcane Borer

We developed sugarcane plants with improved resistance to the sugarcane borer, Diatraea saccharalis (F). An expression vector pGcry1Ac0229, harboring the cry1Ac gene and the selectable marker gene, bar, was constructed. This construct was introduced into the sugarcane cultivar FN15 by particle bombardment. Transformed plantlets were identified after selection with Phosphinothricin (PPT) and Basta. Plantlets were then screened by PCR based on the presence of cry1Ac and 14 cry1Ac positive plantlets were identified. Real-time quantitative PCR (RT-qPCR) revealed that the copy number of cry1Ac gene in the transgenic lines varied from 1 to 148. ELISA analysis showed that Cry1Ac protein levels in 7 transgenic lines ranged from 0.85 μg/FWg to 70.92 μg/FWg in leaves and 0.04 μg/FWg to 7.22 μg/FWg in stems, and negatively correlated to the rate of insect damage that ranged from 36.67% to 13.33%, respectively. Agronomic traits of six transgenic sugarcane lines with medium copy numbers were similar to the non-transgenic parental line. However, phenotype was poor in lines with high or low copy numbers. Compared to the non-transgenic control plants, all transgenic lines with medium copy numbers had relatively equal or lower sucrose yield and significantly improved sugarcane borer resistance, which lowered susceptibility to damage by insects. This suggests that the transgenic sugarcane lines harboring medium copy numbers of the cry1Ac gene may have significantly higher resistance to sugarcane borer but the sugarcane yield in these lines is similar to the non-transgenic control thus making them superior to the control lines.     

A comparative study of somatic embryogenesis in Secale vavilovii

Summary The ability of immature embryos, inflorescences and leaves of Secale vavilovii to form embryogenic callus was tested on Murashige and Skoog (1962) medium supplemented with different concentrations of 2,4-D. All cultured immature embryos formed calluses. The highest percentage of embryogenic callus production was from 1–2 mm embryos. Young leaves also formed calluses, mainly from the 10–15 mm basal segment, the percentages of embryogenic calluses being higher when cultures were maintained in darkness. Embryogenic calluses were obtained also from all the cultured immature inflorescences, in the three cases, rooted green plants were obtained and grown in soil. Comparison of the responses of the three explants used indicates that immature inflorescence is the most useful explant for obtaining regenerated plants in Secale vavilovii.     

Effect of physical desiccation on plant regeneration efficiency in rice (Oryza sativa L.) variety super basmati

This experiment assessed the effect of partial physical desiccation on plant regeneration efficiency in scutellum-derived embryogenic calluses of rice (Oryza sativa L.) variety Super basmati. A number of callusing cultures were developed, and efficient callus induction was observed on MS (Murashige and Skoog) basal medium supplemented with 2.0 mg/L 2,4-dichlorophenoxy acetic acid. The calluses were proliferated on the same medium for 3 weeks and then shifted to dehydration desiccation treatment for 72 h. The desiccated calluses were cultured on different media for somatic embryogenesis and plant regeneration. A medium with 2.0 mg/L α-napthaleneacetic acid, 10.0 mg/L abscisic acid , 2.0 mg/L kinetin was best for somatic embryogenesis only, but not for further plant development. After 10 d, differentiated calluses were sub-cultured on medium with various concentrations and types of carbohydrates (carbon source) in ¹MS_2j medium. A large number of plantlets (14.51±2.81 and 8.56±2.90 plants/callus) were regenerated via chemical desiccation, on MS with 3% maltose+3% sorbitol and 6% sucrose, respectively. Under dehydration on only simple MS (3% sucrose), 11.23±3.22 plants/callus were developed. Under conditions of dehydration and chemical desiccation, plant regeneration rates were higher than the calluses cultured on simple MS medium in the presence of plant growth regulator. After somatic embryogenesis, >25% plants were sterile. The protocol used here may allow maximum regeneration of normal and fertile plantlets of super basmati rice within 3 months.     

Efficient transformation of beet (<Emphasis Type="Italic">Beta vulgaris</Emphasis>) and production of plants with improved salt-tolerance

Small bud tips of 1–3 mm in length were taken from multiple shoot clumps that derived from immature inflorescence cultures of beet as recipient for the Agrobacterium-mediated transformation and transgenic plants were obtained from eight genotypes. The optimal genetic transformation protocol was established as followed: the buds were immersed in Agrobacterium suspension of OD₆₀₀ =0.3–0.5 for 5–10 min, with vacuum infiltration (0.3–0.5 × 10⁵ Pa) or supplemented with 0.01% Silwet L-77, co-cultured for 2–4 days and followed by 10-day culture on medium containing 100 mg l⁻¹ cefotaxime, then the buds were selected on medium containing 10 mg l⁻¹ hygromycin B for three consecutive generations. The percentage of hygromycin-resistant buds after three selections varied from 13.3 to 30.6% with genotypes. The results of PCR and further Southern blotting of genomic DNA of hygromycin-resistant buds or plants showed that the exogenous hpt and AtNHX1 gene had been integrated into the genomes of some transformed buds or plants. The transgenic buds or plants with AtNHX1 gene encoding Na⁺/H⁺ antiport on the vacuole membrane of Arabidopsis showed improved salt-tolerance than the controls. AtNHX1gene inherited in some transgenic lines as Mendelian segregation. This result revealed that it was feasible to improve salt-tolerance of beets by the introduction of AtNHX1 gene into cultured buds.     

Gene transfer in plants of Brassica juncea using Agrobacterium tumefaciens-mediated transformation

An efficient system for gene transfer into plants of Brassica juncea var. India Mustard, mediated by Agrobacterium tumefaciens. was developed through the manipulation of the culture medium and the use of the appropriate Agrobacterium strain. High frequency shoot regeneration (90–100%) was obtained from hypocotyl explants grown on medium containing 0.9% agarose, 3.3 mg/L AgNO₃ and 0.5–2 mg/L BA in combination with 0.01–0.05 mg/L 2,4-D or 0.1–1 mg/L NAA. Of all the Agrobacterium strains tested, A. tumefaciens A208-SE, carrying the disarmed Ti plasmid and a binary vector pROA93, was the most effective for B. juncea transformation. pROA93 carries the coding sequences of the NPTII and the GUS genes, both driven by a common CaMV 35S promoter in two divergent directions. Inoculated explants grown on the selection medium in the presence of 0.5 mg/L BA and 0.1 mg/L NAA gave rise to transgenic shoots at the highest frequency (9%). All R_o transgenic plants were phenotypically normal, but variation in expression patterns of the GUS gene occurred among the transgenic plants in an organ- and tissue-specific manner. Both the NPTII and the GUS genes were transmitted to the R₁ seed progeny and showed co-segregation.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - NPTII neomycin phosphotransferase type II - GUS -glucuronidase - CaMV cauliflower mosaic virus - MS Murashige and Skoog - X-Gluc 5-bromo-4-chloro-3-indolyl-D--glucuronic acid - IBA indolebutyric acid - SDS sodium dodecyl sulfate     

Long-term culture of embryogenic sugarcane callus

Embryogenic calluses of sugarcane capable of regenerating green plants after long-term culture were sought. The largest quantities of embryogenic calluses were produced on Murashige & Skoog medium, but cultures maintained on Chu N6 medium remained embryogenic and totipotent longer. Both media contained 4.5 M 2,4-dichlorophenoxyacetic acid (2,4-d). The effect of supplements on somatic embryogenesis was examined. Kinetin (0.5 M) and 10% (v/v) coconut water in callus initiation medium were inhibitory to subsequent embryogenesis. Embryogenic calluses on N6 medium increased in fresh weight with proline concentration up to 90 mM. Maximum fresh weight was achieved with 5% sucrose. Although genotypic differences were observed, embryogenesis occurred in all 17 sugarcane clones tested. Embryogenic calluses of one cultivar regenerated green plants after 16 months, but suspensions were totipotent for only 8 months. Total number of regenerated plants decreased with time in culture, while the number of pale green plants increased starting after 5 months in culture.Published as Paper No. 785 in the journal series of the Experiment Station, HSPA     

Somatic embryogenesis and plant regeneration from immature inflorescence segments of Coix lacryma-jobi

Callus was obtained from segments of immature inflorescence of Coix lacryma-jobi cultured on N6 medium containing 1–2 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) and 3–5% sucrose. Plantlets were regenerated when embryogenic calluses were transferred onto MS medium with 0.5 mg/l kinetin and 0.01 mg/l naphthaleneacetic acid (NAA). Regenerated plants had the diploid chromosome number (2n=20).     

High-efficiency,microprojectile-mediated cotransformation of sugarcane,using visible or selectable markers

Transient expression of the maize anthocyanin regulatory elements,R andC1, was used to optimise parameters for microprojectile-mediated delivery of DNA into sugarcane embryogenic callus. Osmotic treatment of target tissues and particle acceleration in a high-pressure helium pulse increased the frequency of transient expression to 5–8×10³ cells per bombardment, with minimal tissue damage. An average of 0.34% of transiently expressing cells developed into stably transformed, anthocyanin-pigmented proembryoids which subsequently regenerated into plantlets. However, constitutive expression ofR andC1 proved deleterious, and no anthocyanin-pigmented plant survived beyond 3 cm in height. We also compared selective subculture of callus portions showing luciferase activity with antibiotic selection on medium containing G418 or phosphinothricin, upon bombardment of callus with constructs driving strong expression ofluc, aphA orbar genes. Selective subculture based on luciferase activity enabled recovery of 1.4±0.5 independent transgenic plants per bombardment, compared to 19.8±3.7 independent transgenic plants per bombardment from an optimised G418 selection regimen, and no transformed plants from phosphinothricin selection. Whenluc andaphA on separate plasmids were coprecipitated onto microprojectiles before bombardment, 67–79% of callus lines selected for G418 resistance also showed luciferase activity detectable under a low-light camera. Southern analysis confirmed a very high cotransformation frequency, with variable copy numbers of introduced genes. The high efficiencies of gene transfer, selection and cotransformation in the optimised system, coupled with the simple initiation and regeneration of embryogenic callus, provide an effective tool for practical genetic transformation of sugarcane.     

Anther-specific expression of ipt gene in transgenic tobacco and its effect on plant development

Isopentenyl transferase (ipt) gene from Agrobacterium tumefaciens T-DNA was placed under the control of a TA29 promoter which expresses specifically in anther. The chimeric TA29-ipt gene was transferred to tobacco plants. During flowering, mRNA of the ipt gene in the anthers of the transgenic plants accumulated and the level of iPA + iPs increased 3–4-fold in the leaves, petals, pistils, and stamens compared with those in the wild type plants. This cytokinin increase affected various aspects in development indicating that the alterations of endogenous cytokinin level by using anther-specific expression of the TA29-ipt gene affected morphology, floral organ systems and reproductivity of the transgenic plants.     

Expression of the Bar Gene Confers Herbicide Resistance in Transgenic Lettuce

Resistance to bialaphos, a broad-spectrum herbicide, was introduced into Lactuca sativa cv. Evola by Agrobacterium tumefaciens-mediated transformation. A. tumefaciens strains 0310 and 1310, both carrying the bialaphos resistance (bar) and neomycin phosphotransferase (nptII) genes, were used for transformation. Primary transformants were selected on kanamycin sulphate-supplemented shoot regeneration medium. Integration of both transgenes was confirmed by non-radioactive Southern hybridisation. The hypervirulent plasmid ToK47 in A. tumefaciens strain 1310 generated multiple insertions of T-DNA in some transgenic plants; the absence of pToK47 (strain 0310) resulted in single gene inserts in all plants tested. Resistance to glufosinate ammonium was observed in axenic seedlings grown on medium supplemented with the herbicide at 5 mg l–1 and in glasshouse-grown plants sprayed with the compound at 300 mg l–1. Stable expression of the bar gene was observed in R2 generation plants. The kanamycin resistance of R1 seedlings was observed by germinating seeds on medium supplemented with 200 mg l–1 kanamycin sulphate. The presence of NPTII protein and PAT enzyme activity were demonstrated by ELISA and PAT enzyme assay respectively. Transgenes segregated in a Mendelian fashion in some plant lines in the R1 generation; herbicide resistance also segregated in the expected ratio in the R2 generation in most transgenic lines. This study confirmed that an agronomically important transgene can be integrated and stably expressed over several generations in lettuce.     

Genetic tranformation of cotyledon explants of cowpea (Vigna unguiculata L. Walp) using Agrobacterium tumefaciens

Mature de-embryonated cotyledons with intact proximal end of Vigna unguiculata were cultured on B5 basal medium containing varying concentrations of BAP. Thirty-six percent of the explants produced shoots on B5 medium supplemented with 8× 10^–6 M BAP. Cotyledon explants were pre-incubated for 24 h, inoculated with A. tumefaciens pUCD2614 carrying pUCD2340, co-cultivated for 48 h and transferred to hygromycin-B (25 mg/l) containing shoot induction medium. Approximately 15–19% of the explants produced shoots on the selection medium. The elongated shoots were subsequently rooted on B5 basal medium containing hygromycin. The transgenic plants were later established in pots. The presence of hpt gene in the transgenic plants was confirmed by Southern blot hybridization.Abbreviations BAP 6-Benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - hpt hygromycin phosphotransferase - IAA Indole-3-acetic acid - NAA 1-naphthaleneacetic acid     

Efficient transformation of papaya by coat protein gene of papaya ringspot virus mediated byAgrobacterium following liquid-phase wounding of embryogenic tissues with caborundum

Summary Generation of transgenic papaya (Carica papaya L.) has been hampered by the low rates of transformation achieved by conventionalAgrobacterium infection or microprojectile bombardment. We describe an efficientAgrobacterium-mediated transformation method based on wounding of cultured embryogenic tissues with carborundum in liquid phase. Embryogenic tissues were obtained from cultured immature zygotic embryos collected 75–90 days after pollination. The expressible coat protein (CP) gene of a Taiwan strain of papaya ringspot virus (PRSV) was constructed in a Ti binary vector pBGCP, which contained the NPT-II gene as a selection marker. The embryogenic tissues were vortexed with 600 mesh carborundum in sterile distilled water for 1 min before treating with the disarmedA. tumefaciens containing the pBGCP. Transformed cells were cultured on kanamycin-free medium containing 2,4-D and carbenicillin for 2–3 weeks and then on the kanamycin medium for 3–4 months. The developed somatic embryos were transferred to the medium containing NAA, BA and kanamycin and subsequently regenerated into normal-appearing plants. Presence of the PRSV CP gene in the putative transgenic lines was detected by PCR and the expression of the CP was verified by Western blotting. The transgene was nuclearly inherited as revealed by segregation analysis in the backcrossed R₁ progeny. From five independent experiments, the average successful rate of transformation was 15.9% of the zygotic embryos treated (52 transgenic somatic embryo clusters out of 327 zygotic embryos treated), about 10–100 times higher than the available methods previously reported. Thus, wounding highly regenerable differentiating tissues by carborundum vortexing provides a simple and efficient way for papaya transformation mediated byAgrobacterium.     

Rapid production of transgenic sugarcane with the introduction of simple loci following biolistic transfer of a minimal expression cassette and direct embryogenesis

A protocol is described that supports the production of transgenic sugarcane plants ready for transfer to soil within 3 mo from culture initiation. Biolistic gene transfer into cross-sections of immature leaf whorl explants followed by direct somatic embryogenesis resulted in the stable genetic transformation of the commercially important sugarcane cultivar CP 88-1762. Accelerating the production of transgenic sugarcane plants not only saves time and effort but will likely also minimize somaclonal variation. Southern blot analysis revealed simple transgene integration patterns ranging from one to five hybridization products. NPTII-ELISA confirmed that most of the transgenic plants expressed the transgene stably in vegetative progeny. Using a minimal, linear expression cassette (MC) without vector backbone sequences for the biolistic gene transfer and reducing the amount of MC to 10 ng per shot may have led to simple transgene integration and stable transgene expression. Therefore, this protocol has great potential for the generation of commercial transgenic sugarcane events.     

Physical,chemical and physiological parameters for electroporation-mediated gene delivery into rice protoplasts

Transformation of cereal protoplasts has been reported using several methods; however, the efficiencies of transformations are still very low. We have evaluated a number of parameters that influence electroporation-mediated DNA uptake and have also compared the efficiency of transient GUS activity and stable transformation obtained using an optimized electroporation method with that of the PEG method. The electroporation conditions tested were ionic composition of buffer, ionic strength, resistivity of buffer, type of anions, voltage, and capacitance.Protoplasts isolated from suspension cultures derived from immature embryos of rice (cvs Radon and IR-54) were used for this study. Stable transformation or transient GUS expression experiments were carried out using a plasmid construct containing the CaMV 35S promoter driving thebar gene and a rice actin promoter driving thegus A (uid A) gene (pAG35bar). Electroporation under optimized conditions resulted in about 13-fold higher GUS activities compared to the PEG method. Protoplast survival following optimized electroporation conditions was 55–60%, compared to 35–40% with the PEG treatment. Protoplasts isolated from a suspension culture at different ages gave substantially different levels of transient GUS expression following electroporation-mediated DNA uptake. In contrast, the age of the suspension culture did not influence PEG-mediated DNA uptake and transient GUS activities, which remained low throughout the culture period examined (21 months). Putatively transformed calluses were selected after three to four weeks on medium containing phosphinothricin as the selection agent. The transformation frequencies ranged from 6.2×10^–5 to 5.4×10^–4 with the electroporation method compared to 1.3×10^–5 to 5.3×10^–5 with the PEG method. Southern blot analysis of PPT-resistant calluses obtained by the electroporation-mediated transformation showed simple intergration patterns of integrated DNA in most of the transformants.     

In vitro regeneration and transformation of pigeonpea [Cajanus cajan (L.) Millsp]

A requirement for generating transgenic pigeonpea [Cajanuscajan (L.) Millsp] plants is the development of a highly efficientin vitro regeneration procedure. This goal was achieved byusing germinated seedlings grown on B5 medium supplemented with 10 mgl^–1 6-benzylaminopurine, which induced differentiatingcallus formation in the cotyledonary node region. The calli were transferred onB5 medium with 0.2 mg l^–1 6-benzylaminopurine toobtain shoot induction. Elongated shoots were then further cultured on a B5hormone-free medium for rooting. Using this regeneration system transgenicpigeonpea plants were obtained both by particle bombardment andAgrobacterium tumefaciens-mediated gene transfer. Thepresence of the transgenes in the pigeonpea genome was confirmed by GUS assays,PCR and Southern hybridisation. The transgenic rooted plants were successfullytransferred to soil in the greenhouse. GUS and PCR assays of T1 progeniesconfirmed that the transgenes were stably transmitted to the next generation.This is the first report of successful use ofAgrobacteriumas well as particle bombardment for production of transgenic pigeonpea plants.