盐藻对除草剂草丁膦的抗性研究

对分离出的单藻落盐藻进行除草剂草丁膦的抗性实验,液体培养结果显示,野生盐藻对除草剂草丁膦敏感,3.0mg/L剂量的草丁膦能完全抑制盐藻的生长和增殖。     

Determination of phosphinothricin acetyltransferase in genetically transformed canola seed by a two-antibody sandwich enzyme immunoassay

We report a quantitative, two-antibody sandwich immunoassay for phosphinothricin acetyltransferase (PAT), the selectable marker protein. The method yielded a standard curve with a working range of 0 to 5 ng PAT per mL extract. Replicate absorbance values for standards within a single assay showed a coefficient of variation typically less than 5 percent. Over three separate assays, the coefficient of variation for the slope and y-intercept of the standard curve was 3.8 and 3.7 percent, respectively. TransgenicBrassica napus L. seed was used to demonstrate the utility of the assay. Non-transgenic seed extracts did not show a positive immunoassay signal. Determinations of the PAT enzyme conducted on spiked non-transgenic seed extracts repeated in three separate assays fell in the acceptable range of 80 to 120 percent recovery. Transgenic canola seed, analyzed in three separate assays, showed a mean PAT enzyme content of 403 ng/g with a standard error of 19 ng/g and a coefficient of variation of 8.1 percent. The method has also been applied to several other tissues and processed products of canola, maize, and tobacco.     

Fertile,transgenicTriticale ( ×Triticosecale Wittmack)

Fertile transgenicTriticale ( ×Triticosecale Wittmack) plants expressing the-glucuronidase (uidA) and phosphinothricin acetyltransferase (bar) genes were obtained after microprojectile bombardment of scutellar tissue with the plasmid pDB1 containing theuidA gene under the control of the actin-1 promoter (Act1) from rice and the selectable marker genebar under the control of the CaMV 35S promoter. From 465 bombarded scutella about 4000 plantlets were regenerated; 300 plants survived the selection. These regenerants were screened for enzyme activity by the histological GUS assay and by spraying the plants with a herbicide (Basta). Twenty-five regenerants showed GUS activity and survived repeated Basta spraying. Southern blot analysis showed the presence of both marker genes introduced into the genome of analysed plants.All transgenic plants were fertile. They were grown to maturity and set seed. Pollen and progeny analyses provided evidence for inheritance of the introduced genes to the next generation.     

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.     

The use of glufosinate as a selective agent in Agrobacterium-mediated transformation of soybean

The soybean transformation procedure using the Agrobacterium-cotyledonary node transformation system and the bar gene as the selectable marker coupled with glufosinate as a selective agent is described. Soybean cotyledonary explants were derived from 5 day old seedlings and co-cultivated with Agrobacterium tumefaciens for 3 days. Explants were cultured on Gamborg's B5 medium supplemented with 1.67 mg l^-1 BAP and glufosinate at levels of 3.3 mg l^-1 or 5.0 mg l^-1 for 4 weeks. After 4 weeks explants were subcultured to medium containing MS major and minor salts and B₅ vitamins (MS/B5) supplemented with 1.0 mg l^-1 zeatin-riboside, 0.5 mg l^-1 GA₃ and 0.1 mg l^-1 IAA amended with 1.7 mg l^-1 or 2.0 mg l^-1 glufosinate. Elongated shoots were rooted on a MS/B5 rooting medium supplemented with 0.5 mg l^-1 NAA without further glufosinate selection. Plantlets were transplanted to soil and grown to maturity and set seed in the greenhouse. Primary transformants and their progeny were characterized by Southern blot analysis and a leaf paint assay.     

Expression of the bacterial gdhA gene encoding a NADPH glutamate dehydrogenase in tobacco affects plant growth and development

We investigated the effects of genetic modification of nitrogen metabolism via the bacterial glutamate dehydrogenase (GDH) on plant growth and metabolism. The gdhA gene from Escherichia coli encoding a NADPH-GDH was expressed in tobacco plants under the control of the 35 S promoter. The specific activity of GDH in gdhA plants was 8-fold of that in E. coli. Damage caused by spray application of 1.35 mM of phosphinothricin (PPT) herbicide, a glutamine synthetase (GS) inhibitor, was less pronounced in gdhA plants as compared with the control plants which suggests that the introduced GDH can assimilate some of the excess ammonium, at least during GS inhibition. However, gdhA plants were susceptible to 2.7 mM PPT. Biomass production was consistently increased in gdhA transgenic plants grown under controlled conditions and in the field. Total free amino acids and total carbohydrates were increased in gdhA plants grown in the greenhouse suggesting that both nitrogen and carbon metabolism were altered. We conclude that the modifications in transgenic plants may result from both increased nitrogen efficiency and altered gene expression and metabolism. This revised version was published online in June 2006 with corrections to the Cover Date.     

Transfer and expression of <Emphasis Type="Italic">npt</Emphasis>II and <Emphasis Type="Italic">bar</Emphasis> genes in cucumber (<Emphasis Type="Italic">Cucumis satavus</Emphasis> L.)

Summary The generation of transgenic Cucumis sativus cv. Greenlong plants resistant to phosphinothricin (PPT) was obtained using Agrobacterium tumefaciens-mediated gene transfer. The protocol relied on the regeneration of shoots from cotyledon explants. Transformed shoots were obtained on Murashige and Skoog medium supplemented with 4.4 μM 6-benzylaminopurine 3.8 μM abscisic acid, 108.5 μM adenine sulfate, and 2 mg l⁻¹ phosphinothricin. Cotyledons were inoculated with the strain EHA105 harboring the neomycin phosphotransferase II (npt II), and phosphinothricin resistance (bar) genes conferring resistance to kanamycin and PPT. Transformants were selected by using increasing concentrations of PPT (2–6 mg l⁻¹). Elongation and rooting of putative transformants were performed on PPT-containing (2 mg l⁻¹) medium with 1.4 μM gibberellic acid and 4.9 μM indolebutyric acid, respectively. Putative transformants were confirmed for transgene insertion through PCR and Southern analysis. Expression of the bar gene in transformed plants was demonstrated using a leaf painting test with the herbicide Basta. Pre-culture of explants followed by pricking, addition of 50 μM acetosyringone during infection, and selection using PPT rather than kanamycin were found to enhance transformation frequency as evidenced by transient β-glucuronidase assay. Out of 431 co-cultivated explants, 7.2% produced shoots that rooted and grew on PPT, and five different plants (1.1%) were demonstrated to be transgenic following Southern hybridization.     

Transformation of peas (Pisum sativum L.) using immature cotyledons

A reliable Agrobacterium tumefaciens-mediated transformation method has been developed for peas (Pisum sativum) using immature cotyledons as the explant source. Transgenic plants were recovered from the four cultivars tested: Bolero, Trounce, Bohatyr and Huka. The method takes approximately 7 months from explant to seed-bearing primary regenerant. The binary vector used carried genes for kanamycin and phosphinothricin resistance. Transformed pea plants were selected on 10 mg/l phosphinothricin. The nptII and bar genes were shown to be stably inherited through the first sexual generation of transformed plants. Expression of the phosphinothricin-resistance gene in the transformed plants was demonstrated using the Buster (=Basta) leaf-paint test and the phosphinothricin acetyl transferase enzyme assay.Abbreviations BA 6-benzylaminopurine     

The action of 2-amino-4-(methylphosphinyl)-butanoic acid (phosphinothricin) and its 2-oxo-derivative on the metabolism of cyanobacteria and higher plants

When adequate concentrations of phosphinothricin (a potent inhibitor of glutamine synthetase) are added to Anacystis nidulans cells suspended in nitrate medium, ammonia excretion into the medium takes place. Similarly, when phosphinothricin is added to nitrogen fixing cultures of Anabaena ATCC 33047, ammonia is also released at high rates. Methionine sulphoximine, phosphinothricin and its 2-oxo-derivative (1 mM) stimulate ammonia production and cause a sharp drop in glutamine and asparagine concentrations, when fed to leaves of Triticum, Pisum and Helianthus. Less pronounced effects were detected with the leaves of a C₄ plant Zea.     

Effect of phosphinothricin (glufosinate) on photosynthesis and photorespiration of C3 and C4 plants

Phosphinothricin (glufosinate), an irreversible inhibitor of glutamine synthetase, causes an inhibition of photosynthesis in C₃ (Sinapis alba) and C₄ (Zea mays) plants under atmospheric conditions (400 ppm CO₂, 21% O₂). This photosynthesis inhibition is proceeding slower in C₄ leaves. Under non-photorespiratory conditions (1000 ppm CO₂, 2% O₂) there is no inhibition of photosynthesis. The inhibition of glutamine synthetase by phosphinothricin results in an accumulation of NH₄ ⁺. The NH₄ ⁺-accumulation is lower in C₄ plants than in C₃ plants. The inhibition of glutamine synthetase through phosphinothricin in mustard leaves results in a decrease in glutamine, glutamate, aspartate, asparagine, serine, and glycine. In contrast to this, a considerable increase in leucine and valine following phosphinothricin treatment is measured. With the addition of either glutamine, glutamate, aspartate, glycine or serine, photosynthesis inhibition by phosphinothricin can be reduced, although the NH₄ ⁺-accumulation is greatly increased. This indicates that NH₄ ⁺-accumulation cannot be the primary cause for photosynthesis inhibition by phosphinothricin. The investigations demonstrate the inhibition of transmination of glyoxylate to glycine in photorespiration through the total lack of amino donors. This could result in a glyoxylate accumulation inhibiting ribulose-1,5-bisphosphate-carboxylase and consequently CO₂-fixation.Abbreviations GOGAT glutamine-2-oxoglutarate-amidotransferase - GS glutamine synthetase - PPT phosphinothricin - MSO methionine sulfoximine - RuBP ribulose-1,5-bisphosphate