Resistance to Potato Virus X Infection in Transgenic Tobacco Plants with Coat Protein Gene of Virus

A major commercial cultivar of tobacco was transformed via Agrobacterium mediated procedure. Tobacco leaves started to form shoots on shoot inducing medium containing kanamycin after infected by Agrobacterium containing the plasmid with PVX CP gene. Regenerated plants were obtained in two weeks on hormone-free MS medium containing kanamycin. The transgenic tobacco plants were identified with nopaline detection,enzyme-linked immunosorbent assay and western blot analysis, symptom appearance was significantly delayed and virus accumulation was either absent or reduced in PVX CP gene transformed plants. Progenies of transgenic tobacco plants also gained resistance to PVX infection to a certain degree. These experiments demonstrate that CP protection is effective against PVX.     

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。     

杆状病毒p35基因诱导烟草产生广谱抗病机理分析

来源于昆虫病毒和动物的抗细胞凋亡基因能够诱导植物对生物或者非生物胁迫产生抗性.但其抗性机理有不同甚至相反的报道.本研究将来源于苜蓿银纹夜蛾核多角体病毒的p35基因转化烟草,T1代转化烟草Western blotting检测P35蛋白的表达,转化烟草接种烟草花叶病毒(Tobacco mosaic virus,TMV)抗病效果增强.进一步的抗病机理研究表明,转化和野生型烟草感染TMV后诱导过氧化氢积累无明显区别,野生型烟草感染24 h后出现DNA Laddering而转化烟草则没有;Western blotting结果显示PR-1蛋白表达没有显著差异.但接种另外一种病原真菌核盘茵(Sclerotiniasclerotiorum)后的RT-PCR分析结果表明,表达P35蛋白的烟草可增强感染核盘菌后PR-1基因的转录.而且表达时间提前.以上结果说明p35基因介导的广谱抗病反应的机理与接种的不同病原有关,对不同病原物的抗病机理存在差异,除抑制细胞凋亡外,还可能通过激活PR基因的表达提高对病原物的抗病能力.     

Molecular and cellular evidence of chimaeric tissues in primary transgenics and elimination of chimaerism through improved selection protocols

Transgenic plants of strawberry cultivar Totem were developed by Agrobacterium-mediated transformation using a plasmid vector containing gus and nptII genes. Parallel experiments were carried out with and without repeated subculturing (iterative cultures) for generation of transgenic shoots on selection medium. The selection levels in the non-iterative pathway were kept constant, while in the iterative protocol, stepwise increase of selection pressure was applied at different stages of tissue growth. Rooted transgenic plants obtained via both protocols were outplanted in soil. Random leaf samples of greenhouse-grown transgenics were analysed for the presence of gus gene sequences by Southern hybridization as well as gus expression on leaf and petiole tissues by X-Gluc histological assay. Random leaf samples analysed from individual transgenic events developed under iterative culture were positive for the gus insert as verified by Southern analysis confirming the presence of transgenes and lack of chimaeras. Leaf samples of the transgenic events from the non-iterative protocol were either positive or negative on Southern analysis indicating the chimaeric nature of the transgenic plants. The absence of gus sequences in the transgenic plants grown under the non-iterative protocol reinforced the necessity of iterative cultures along with stepwise increase in selection levels for generating non-chimaeric transgenics in strawberry. The gus expression was highly variable, irrespective of the iterative or non-iterative protocol used for transformation. We conclude that strawberry is highly prone to develop chimaeric transgenics if derived from primary regenerants and that the iterative culture technique effectively converts chimaeras to pure line transgenic plants     

Transgenic tobacco plants expressing the potato virus X open reading frame 3 gene develop specific resistance and necrotic ring symptoms after infection with the homologous virus.

Tobacco plants were transformed with the open reading frame 3 gene from Potato virus X (PVX) coding for the p12 protein. Although the transgenic plants exhibited a normal morphological aspect, microscopic examination revealed extensive alterations in leaf tissue structure. After being challenged with PVX, the transgenic plants showed resistance to PVX infection and formation of specific leaf symptoms consisting of concentric rings encircled by necrotic borders. These novel symptoms were accompanied by biochemical changes normally associated with the hypersensitive response (HR) and were absent in noninfected transgenic plants or in PVX-infected nontransgenic plants. No equivalent virus resistance was observed after inoculation with Tobacco mosaic virus or Potato virus Y, suggesting the presence of a specific resistance mechanism. Despite development of HR-like symptoms, systemic acquired resistance was not induced in PVX-infected p12 transgenic plants. No evidence of an RNA-mediated resistance mechanism was found.     

Cross-protection and selectable marker genes in plant transformation

Summary Selectable marker genes play an important role in plant transformation. The level of selection pressure is generally established by generating a kill curve for the selectable marker. In most cases, the lowest concentration which kills all explants is used. This study examined two selectable marker genes, phosphinothricin acetyl transferase (PAT) and hygromycin phosphotransferase (HPT), in transformation of tobacco leaf disks. Experiments to determine the lethal level of the herbicide, glufosinate-ammonium (phosphinothricin) (PPT) using a leaf-disk regeneration assay established that no shoots regenerated at 2 to 4 mg PPT per 1. Likewise with the antibiotic, hygromycin (HYG), no plants regenerated at 50 mg hygromycin per 1. In contrast, after cocultivation of the leaf disks withAgrobacterium tumefaciens containing either the PAT or HPT gene in combination with a Bt gene for insect resistance, plants were successfully regenerated from leaf disks at 2 to 4 mg PPT per 1 and 50 mg hygromycin per 1. However, most plants regenerated at 2 and 3 mg PPT per 1 were found to be nontransformed (95–100% escapes) by i) Southern-blot analysis, ii) herbicide application test, and iii) insect feeding bioassay. On the other hand, plants that regenerated on 50 mg hygromycin per 1 and 4 mg PPT per 1 were transgenic as determined by Southern analysis, leaf assay for PPT or HYG resistance, and death of tobacco budworms feeding on these leaves. This study showed a significant level of cross-protection and/or transient expression of the PAT selectable marker gene allowing escapes (95–100%) at selection levels of 2 and 3 mg PPT per 1 which completely kill controls. On the other hand, the HPT gene at 50 mg is efficient in selecting for T-DNA integration.     

Development of transgenic finger millet (<Emphasis Type="Italic">Eleusine coracana</Emphasis> (L.) Gaertn.) resistant to leaf blast disease

Finger millet plants conferring resistance to leaf blast disease have been developed by inserting a rice chitinase (chi11) gene through Agrobacterium-mediated transformation. Plasmid pHyg-Chi.11 harbouring the rice chitinase gene under the control of maize ubiquitin promoter was introduced into finger millet using Agrobacterium strain LBA4404 (pSB1). Transformed plants were selected and regenerated on hygromycin-supplemented medium. Transient expression of transgene was confirmed by GUS histochemical staining. The incorporation of rice chitinase gene in R₀ and R₁ progenies was confirmed by PCR and Southern blot analyses. Expression of chitinase gene in finger millet was confirmed by Western blot analysis with a barley chitinase antibody. A leaf blast assay was also performed by challenging the transgenic plants with spores of Pyricularia grisea. The frequency of transient expression was 16.3% to 19.3%. Stable frequency was 3.5% to 3.9%. Southern blot analysis confirmed the integration of 3.1 kb chitinase gene. Western blot analysis detected the presence of 35 kDa chitinase enzyme. Chitinase activity ranged from 19.4 to 24.8. In segregation analysis, the transgenic R₁ lines produced three resistant and one sensitive for hygromycin, confirming the normal Mendelian pattern of transgene segregation. Transgenic plants showed high level of resistance to leaf blast disease compared to control plants. This is the first study reporting the introduction of rice chitinase gene into finger millet for leaf blast resistance.     

Chlorophyll fluorescence assay for kanamycin resistance screening in transgenic plants

The applicability of a chlorophyll fluorescence assay for kanamycin (Km) resistance screening in transgenic tobacco (Nicotiana tabacum) and Arabidopsis thaliana plants was investigated. In wild-type leaves incubated in the presence of 200 mg/l Km, a decrease in maximum variable fluorescence ((Fv)m) and a significant increase in constant fluorescence (Fo) were observed. Using (Fv)m/Fo as a screening parameter, we were able to distinguish Km-treated samples from untreated samples within 4 days. This parameter was applied to Km resistance screening using tobacco plants transformed with the nptII gene via Agrobacterium. Among 74 shoots selected on medium containing 200 mg/l Km, 37 plants were scored as Km sensitive by the chlorophyll fluorescence assay. These 74 scorings proved to be accurate, as reconfirmed by (1) polymerase chain reaction amplification of the transgene, (2) enzymatic assay of neomycin phosphotransferase and (3) leaf disc assay. Using the chlorophyll fluorescence assay, we could also screen 3-week old Arabidopsis plants carrying the nptII gene. These results clearly demonstrate the reliability and efficiency of this nondestructive assay for Km resistance screening of transgenic plants. Received: 27 November 1995 / Revision received: 18 April 1997 / Accepted: 28 July 1997     

利用Cre/lox重组系统获得无选择标记的SKTI抗虫转基因烟草

将置于两个同向lox位点之间的Bar基因表达盒与大豆胰蛋白酶抑制剂SKTI基因表达盒融合后获得相应植物表达载体,转化烟草Wisconsin 38后获得对棉铃虫具有明显抗性的SKTI转基因植株。SKTI转基因植株通过叶盘二次转化法导入Cre基因,对再生植株叶盘进行Basta的抗性检测,检测Bar基因的删除情况。结果表明:绝大多数再生植株对应叶盘在含8 mg/L PPT的筛选培养基上无法再生,Bar基因被删除的效率在38%~100%之间。对Bar基因删除区域进行PCR及克隆测序后发现Bar基因表达盒被精确删除。对Bar基因删除植株开花自交获得的分离后代进行NPTⅡ抗性检测,5株NPTⅡ敏感植株分子检测显示均只含有SKTI基因而无Cre基因存在,为无选择标记基因的SKTI转基因植株。     

Agrobacterium tumefaciens－mediated transformation of rice with the spider insecticidal gene conferring resistance to leaffolder and striped stem borer

Immature embryos of rice varieties "Xiushuill" and "Chunjiang 11" precultured for 4d were infected and transformed by Agrobacterium tumefaciens strain EHA101/pExT7 (containing the spider insecticidal gene). The resistant calli were transferred onto the differentiation medium and plants were regenerated. The transformation frequency reached 56% approximately 72% measured as numbers of Geneticin (G418)-resistant calli produced and 36% approximately 60% measured as numbers of transgenic plants regenerated, respectively. PCR and Southern blot analysis of transgenic plants confirmed that the T-DNA had been integrated into the rice genome. Insect bioassays using T1 transgenic plants indicated that the mortality of the leaffolder (Cnaphalocrasis medinalis) after 7d of leaf feeding reached 38% approximately 61% and the corrected mortality of the striped stem borer (Chilo suppressalis) after 7d of leaf feeding reached 16% approximately 75%. The insect bioassay results demonstrated that the transgenic plants expressing the spider insecticidal protein conferred enhanced resistance to these pests.     

抗草甘膦抗虫植物表达载体的构建及其转基因烟草的分析

构建了含草甘膦抗性突变基因（aroAM12）和人工合成重组Bt抗虫基因（Bts1m）的植物表达载体pCM12_s1m。aroAM12基因的表达由CaMV35S启动子控制,Bts1m基因的表达由2E_CaMV35S启动子和Ω因子控制。通过农杆菌介导,将aroAM12和Bts1m基因转化到烟草中,转基因烟草通过在含草甘膦的MS培养基上筛选而获得。Southern blot分析表明所有经过草甘膦筛选出的转化植株都整合有aroAM12基因,约70%的转化植株同时整合有aroAM12和Bts1m基因。Northern blot、Immunodot blot分析进一步证明整合的两个基因在转录、翻译水平上均进行了表达,不同植株之间表达存在着差异。草甘膦抗性和虫试实验证明,获得的转基因烟草对草甘膦和烟青虫具有很强的抗性。     

Enhanced resistance to salt,cold and wound stresses by overproduction of animal cell death suppressors Bcl-xL and Ced-9 in tobacco cells - their possible contribution through improved function of organella

Overproduction of animal cell death suppressors Bcl-xL and Ced-9 conferred enhanced resistance to UV-B and paraquat treatment in tobacco plants [Mitsuhara et al. (1999) CURR: Biol. 9: 775]. We report here that the progeny could germinate in 0.2 M NaCl or at 10 degrees C under light, while control plants could not. Suspension-cultured Bcl cells resisted NaCl treatment maintaining an active mitochondrial membrane potential for longer than control cells. When intracellular pH was determined by in vivo (31)P-NMR, immediate cytoplasmic acidification by 0.3 M NaCl treatment in control cells was found to be suppressed in transgenic cells. Monitoring of cytoplasmic and vacuolar pHs in control cells indicated the vacuole was disrupted 40 min after 0.5 M NaCl treatment, while the compartment between the cytoplasm and vacuole was likely to remain intact in Bcl cells for 100 min. Enhanced shoot regeneration from cut leaf pieces and more vigorous rooting from cut stem ends were found in transgenic plants. The Bcl protein was abundant in all subcellular fractions. Based on the results in transgenic plants carrying a mutant bcl-xL gene, Bcl-xL is thought to suppress cell death and enhance the viability of plants in stressful environments by contributing to the maintenance of the homeostasis of organella.     

Agrobacterium tumefaciens-mediated transformation of the aromatic shrub Lavandula latifolia

Transgenic plants of the aromatic shrub Lavandula latifolia (Lamiaceae) were produced using Agrobacterium tumefaciens-mediated gene transfer. Leaf and hypocotyl explants from 35–40-day old lavender seedlings were inoculated with the EHA105 strain carrying the nptII gene, as selectable marker, and the reporter gusA gene with an intron. Some of the factors influencing T-DNA transfer to L. latifolia explants were assessed. Optimal transformation rates (6.0 ± 1.6% in three different experiments) were obtained when leaf explants precultured for 1 day on regeneration medium were subcultured on selection medium after a 24 h co-cultivation with Agrobacterium. Evidence for stable integration was obtained by GUS assay, PCR and Southern hybridisation. More than 250 transgenic plants were obtained from 37 independent transformation events. Twenty-four transgenic plants from 7 of those events were successfully established in soil. -glucuronidase activity and kanamycin resistance assays in greenhouse-grown plants from two independent transgenic lines confirmed the stable expression of both gusA and nptII genes two years after the initial transformation. Evidence from PCR data, GUS assays and regeneration in the presence of kanamycin demonstrated a 1:15 Mendelian segregation of both transgenes among seedlings of the T1 progeny of two plants from one transgenic L. latifolia line.     

Agrobacterium tumefaciens mediated transformation and regeneration of muskmelon plants

Transgenic muskmelon (Cucumis melo L.) plants were produced efficiently by inoculating cotyledon explants with Agrobacterium tumefaciens strain LBA4404 bearing a Ti plasmid with the NPT II gene for kanaymcin resistance. After co-cultivation for three days, expiants were transferred to melon regeneration medium with kanamycin to select for transformed tissue. Shoot regeneration occurred within 3–5 weeks; excised shoots were rooted on medium containing kanamycin before transferring to soil. Morphologically normal plants were produced in three months. Southern blot analysis confirmed that ca. 85% of the regenerated plants contained the NPT gene. Dot blot analysis and leaf callus assay of progeny of transgenic plants verified transmission of the introduced gene(s) to the next generation. Factors affecting transformation efficiency are discussed.Abbreviations ABA abscisic acid - BAP 6-benzylaminopurine - IAA indole 3 acetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - NPT II neomycin phosphotransferase II     

A High Efficient Transformation System and the Introduction of Sweet Protein Gene into Potato (Solanum tuberosum L.)

Tuber, minituber and in vitro-grown microtuber discs of potato (Solanum tuberosum L.) cultivars 85-14-3, 86-2 and Favorita were used in Agrobacterium mediated gene transfer. A simple, rapid and efficient transformation system was established. Among the three kinds of discs used, the microtuber disc was superior in obtaining transformants. Microtuber discs star ted to form shoots on shoot inducing medium containing kanamycin two to three weeks after cocultivation. Rooted transformants could be obtained in 6–7 weeks. The transformation efficiency could reach as high as 67.5%. The majority of kanamycin resistant plants gave nopaline positive or GUS expression. A number of transgenic plants were obtained using the plasmid containing a sweet protein NPT Ⅱ and nopaline synthase genes. The leaf callus assay and nopaline assay indicated that the foreign sweet protein gene was introduced into the potato genome.     

利用pmi标记基因筛选培育转EaDREB2B基因甘蔗

利用已构建的植物表达载体prd29a-dreb-hyg,通过酶切连接到含有磷酸甘露糖异构酶基因（pmi）的表达质粒pZMLR14上,构建植物表达载体pDREB-PMI。利用基因枪轰击转化甘蔗愈伤,经过甘露糖筛选,共获51株抗性苗,转化再生频率为4.25%。对转基因植株进行分子检测,结果表明有8株为阳性转基因无性系。氯酚红试验表明标记磷酸甘露糖异构酶基因在转基因株系中均有表达。对转基因T₁代甘蔗植株进行分子检测,结果表明EaDREB2B基因在转基因甘蔗无性系T₁代中稳定遗传。该结果为进一步研究EaDREB2B基因在甘蔗抗旱方面的作用奠定了基础。     

Over-expression of Osmotin Induces Proline Accumulation and Confers Tolerance to Osmotic Stress in Transgenic Tobacco

Osmotin has been implicated in conferring tolerance to drought and salt stress in plants. We have over-expressed the osmotin gene under the control of constitutive CaMV 35S promoter in transgenic tobacco, and studied involvement of the protein in imparting tolerance to salinity and drought stress. The transgenic plants exhibited retarded leaf senescence and improved germination on a medium containing 200mM NaCl. Further, the transgenics maintained higher leaf relative water content (RWC), leaf photosynthesis and free proline content than the wild type plants during water stress and after recovery from stress. When subjected to salt stress (200mM NaCl), the transgenic plants accumulated significantly more proline than the wild type plants. These results suggest the involvement of the osmotin-induced increase in proline in imparting tolerance to salinity and drought stress in transgenic plants over-expressing the osmotin gene.     

Transgenic <Emphasis Type="Italic">Eustoma grandiflorum</Emphasis> expressing the <Emphasis Type="Italic">bar</Emphasis> gene are resistant to the herbicide Basta<Superscript>®</Superscript>

Lisianthus (Eustoma grandiflorum) is a cut or ornamental flower that is popular all over the world. This ornamental crop, however, lacks an effective weed control method due to its susceptibility to herbicide. In this study, transgenic plants of a lisianthus cultivar were produced using Agrobacterium-mediated delivery of the plasmid pCAMBIA3300, which carried the bialaphos resistance (bar) gene under driven by the CaMV 35S promoter. The transgenic calli were derived from wounded edges of the leaves grown on a shoot regeneration medium containing 100 mg l^?1 cefotaxime and 2 mg l^?1 glufosinate ammonium for 4 weeks. The callus that was detached from the wounded edge of the leaf was transferred to the shoot regeneration medium with 100 mg l^?1 cefotaxime and 5 mg l^?1 glufosinate ammonium for 4 weeks for shoot regeneration. The bar gene integration and expression in the transgenic plants were confirmed by Southern and Northern blot analyses, respectively. Subsequently, the transgenic lines were assessed in vitro and under greenhouse conditions for their resistance to the commercial herbicide Basta^®, which contains glufosinate ammonium as the active component. Six transgenic lines showed high percentages (67–80%) of survival in vitro under the selection condition with glufosinate ammonium (up to 216 mg l^?1). Under greenhouse conditions, the plants from these six lines remained healthy and exhibited a normal phenotype after spraying with glufosinate ammonium (up to 1,350 mg l^?1). This is the first paper to provide a detailed survey of transgenic lisianthus expressing the bar gene and exhibiting herbicide-resistance under greenhouse conditions.     

Expression of mouse metallothionein-I gene confers cadmium resistance in transgenic tobacco plants

Transgenic tobacco plants containing a mouse metallothionein-I (MT-I) gene fused to the cauliflower mosaic virus 35S (CaMV 35S) promoter and nopaline synthase (nos) polyadenylation site were obtained by transforming tobacco leaf discs with an Agrobacterium tumefaciens strain carrying the chimaeric gene. Transformants were directly selected and rooted on medium containing cadmium and kanamycin. A total of 49 individual transgenic tobacco plants were regenerated. Among them 20% showed a very high expression level and their growth was unaffected by up to 200 M cadmium, whereas the growth of control plants was severely affected leaf chlorosis occurred on medium containing only 10 M cadmium. The concentration of MT-I in leaves of control and transgenic tobacco was determined with Cd/haemoglobin saturation assay, a polarographic method and western blotting. In addition, seeds from self-fertilized transgenic plants were germinated on medium containing toxic levels of cadmium and scored for tolerance/susceptibility to this heavy metal. The ratio of tolerant to susceptible plants was 3:1 indicating that the metallothionein gene is inherited as a single locus.     

Thidiazuron promotes adventitious shoot regeneration from pothos (Epipremnum aureum) leaf and petiole explants

Summary Regeneration of adventitious shoots of pothos (Epipremnum aureum Linden and Andre) ‘Jade’ was obtained using leaf and petiole explants preprated from shoot tips of 3-yr-old greenhouse-grown plants. Explants were cultured on Murashige and Skoog (MS) basal medium supplemented with thidiazuron (TDZ), 6-(4-hydroxy-3-methy-trans-2-butenyl-amino)purine (zeatin) or N-isopentenylaminopurine (2iP) individually with α-naphthaleneacetic acid (NAA) in 18 combinations. Callus was initiated from cut surface and along the midrib or major vein of leaf sections. Shoot regeneration from leaf and petoole explants occurred in 30d on medium containing 1, 5 or 10μM TDZ with 0.5 or 1.0μM NAA except petioles on medium with 10 μM TDZ and 1.0 μM NAA where regeneration failed. More time (50d) was needed for shoot regeneration when explants were cultured on medium containing either 2iP or zeatin with NAA. Regeneration frequencies were up to 20% and 50% for leaf and petiole explants, respectively. Shoot numbers per responding explant attained 30 for leaf and petiole explants on medium containing TDZ but only one to four on medium containing either 2iP or zeatin. These results indicate that TDZ is a more effective cytokinin for in vitro regeneration of pothos than either zeatin or 2iP.. Shoots elongated readily and rooted well on MS basal medium, without plant growth regulators. Plantlets acclimatized rapidly and grew vigorously in the greenhouse after transfer to pots containing a commerecial potting medium.