Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

The range of sap-sucking insect pests to which GNA, (the mannose specific lectin from snowdrops (Galanthus nivalis) has been shown to be insecticidal in artificial diets has been extended to include the peach potato aphid (Myzus persicae). A gene construct for constitutive expression of GNA from the CaMV35S gene promoter has been introduced into tobacco plants. A transgenic tobacco line which expresses high levels of GNA has been shown to have enhanced resistance toM. persicae in leaf disc and whole plant bioassays,demonstrating the potential for extending transgenic plant technology to the control of sap-sucking insect pests.     

Related lectins from snowdrop and maize differ in their carbohydrate-binding specificity

Searches in an EST database from maize revealed the expression of a protein related to the Galanthus nivalis (GNA) agglutinin, referred to as GNA_maize. Heterologous expression of GNA_maize in Pichia pastoris allowed characterization of the first nucleocytoplasmic GNA homolog from plants. GNA_maize is a tetrameric protein which shares 64% sequence similarity with GNA. Glycan microarray analyses revealed important differences in the specificity. Unlike GNA, which binds strongly to high-mannose N-glycans, the lectin from maize reacts almost exclusively with more complex glycans. Interestingly, GNA_maize prefers complex glycans containing β1-2 GlcNAc residues. The obvious difference in carbohydrate-binding properties is accompanied by a 100-fold reduced anti-HIV activity. Although the sequences of GNA and GNA_maize are clearly related they show only 28% sequence identity. Our results indicate that gene divergence within the family of GNA-related lectins leads to changes in carbohydrate-binding specificity, as shown on N-glycan arrays.     

农杆菌介导的雪花莲凝集素基因转入玉米骨干自交系

以农杆菌AGL0介导,将雪花莲凝集素基因转入玉米骨干自交系齐319和掖515胚性愈伤组织细胞,从筛选后的抗性愈伤组织获得再生植株。农杆菌浓度和共培养时间均能显著影响侵染后玉米愈伤组织的抗性频率。在农杆菌浓度OD600 0．2～0．3,共培养时间3d时,侵染后玉米愈伤组织的抗性频率最高,平均约4％。对再生植株及其子代基因组DNA的PCR及Southern杂交分析表明雪花莲凝集素基因已经整合到玉米基因组中,并遗传给后代。在蚜虫人工接种试验中,转基因植株上蚜虫的繁殖力为非转基因对照植株上的50％,这表明转基因植株抗蚜性显著增强。     

Enhancement of maize transformation efficiency by the use of maize matrix attachment regions

Improving genetic transformation efficiency is a major concern in plant genetic engineering. While various strategies have been investigated, the enhancement of selectable marker gene expression has not been tried extensively. We used maize matrix attachment regions (MARs) to bracket an herbicide resistance transgene, bar. MARs have been reported to enhance transgene expression level and stability. We show here that MARs not only enhance transformation efficiency by 50%, but are also able to increase or decrease relative efficiencies of each step of the regeneration process depending on MAR sequence combinations. Furthermore, we assessed the trans-effect of MARs in co-bombardment experiments with two independent plasmids, one including the MAR sequences and the other one the bar gene. As for simple bombardment, MARs enhanced transformation efficiency by having a positive influence on organogenesis step in the regeneration process.     

T-DNA transfer to maize plants

Agrobacterium-mediated transformation is the method of choice to engineer desirable genes into plants. Here we describe a protocol for demonstrating T-DNA transfer from Agrobacterium into the economically important graminaceous plant maize. Expression of the T-DNA-located GUS gene was observed with high efficiency on shoots of young maize seedlings after cocultivation with Agrobacterium.     

Direct effects of snowdrop lectin (GNA) on larvae of three aphid predators and fate of GNA after ingestion

Plants genetically modified to express Galanthus nivalis agglutinin (GNA) have been found to confer partial resistance to homopteran pests. Laboratory experiments were conducted to investigate direct effects of GNA on larvae of three species of aphid predators that differ in their feeding and digestive physiology, i.e. Chrysoperla carnea, Adalia bipunctata and Coccinella septempunctata. Longevity of all three predator species was directly affected by GNA, when they were fed a sucrose solution containing 1% GNA. However, a difference in sensitivity towards GNA was observed when comparing the first and last larval stage of the three species. In vitro studies revealed that gut enzymes from none of the three species were able to break down GNA. In vivo feed-chase studies demonstrated accumulation of GNA in the larvae. After the larvae had been transferred to a diet devoid of GNA, the protein stayed present in the body of C. carnea, but decreased over time in both ladybirds. Binding studies showed that GNA binds to glycoproteins that can be found in the guts of larvae of all three predator species. Immunoassay by Western blotting of haemolymph samples only occasionally showed the presence of GNA. Fluorescence microscopy confirmed GNA accumulation in the midgut of C. carnea larvae. Implications of these findings for non-target risk assessment of GNA-transgenic crops are discussed.     

T-DNA vector backbone sequences are frequently integrated into the genome of transgenic plants obtained by Agrobacterium-mediated transformation

Transgenic Arabidopsis and tobacco plants (125) derived from seven Agrobacterium-mediated transformation experiments were screened by polymerase chain reaction and DNA gel blot analysis for the presence of vector `backbone' sequences. The percentage of plants with vector DNA not belonging to the T-DNA varied between 20% and 50%. Neither the plant species, the explant type used for transformation, the replicon type nor the selection seem to have a major influence on the frequency of vector transfer. Only the border repeat sequence context could have an effect because T-DNA vector junctions were found in more than 50% of the plants of three different transformation series in which T-DNAs with octopine borders without inner border regions were used. Strikingly, many transgenic plants contain vector backbone sequences linked to the left T-DNA border as well as vector junctions with the right T-DNA border. DNA gel blots indicate that in most of these plants the complete vector sequence is integrated. We assume that integration into the plant genome of complete vector backbone sequences could be the result of a conjugative transfer initiated at the right border and subsequent continued copying at the left and right borders, called read-through. This model would imply that the left border is not frequently recognized as an initiation site for DNA transfer and that the right border is not efficiently recognized as a termination site for DNA transfer.     

Potential for introducing cold tolerance into papaya by transformation with C-repeat binding factor (CBF) genes

Papaya (Carica papaya L.) production is affected by low temperatures that occur periodically in the subtropics. The C-repeat binding factor (CBF) gene family is known to induce the cold acclimation pathway in Arabidopsis thaliana. Embryogenic papaya cultures were induced from hypocotyls of “Sunrise Solo” zygotic embryos on semisolid induction medium. The CBF 1/CBF 3 genes along with the neomycin phosphotransferase (NPT II) gene were placed under the control of the CaMV 35 S promoter and introduced into a binary vector pGA 643. Embryogenic cultures were transformed with Agrobacterium strain GV 3101 harboring pGA 643. After selection of transformed embryogenic cultures for resistance to 300 mg l⁻¹ kanamycin, somatic embryo development was initiated and transgenic plants were regenerated. The presence of the CBF transgenes in regenerated plants was confirmed by Southern blot hybridization. The papaya and the related cold-tolerant Vasconcella genomes were probed for the presence of cold inducible sequences using polymerase chain reaction (PCR). Possible cold inducible sequences were present in the Vasconcella genome but were absent in the Carica genome.     

Agrobacterium tumefaciens-mediated expression ofgusA in maize tissues

To develop a system forAgrobacterium-mediated transformation of maize (Zea mays L.), we have investigated histochemically the transient expression of -glucuronidase (GUS) activity in maize seedling tissue segments using binary vectors that allow minimal (pKIWI105 and pCNL1) or undetectable (p35S-GUS-INT and pCNL56) levels of GUS activity inA. tumefaciens. Tissue segments from three- to five-day-old sterile seedlings of maize genotype A188 were inoculated withA. tumefaciens. Four days after inoculation, transient expression of GUS activity was found in mesocotyl segments originating from the intercalary meristem region. This GUS activity was specific to the vascular cylinder and was not found in the internal cortical or epidermal layers, nor was it found in mature mesocotyl tissue (segments 5 mm below the coleoptilar node). Transient GUS activity was also detected in leaf and coleoptile tissues of shoot segments, but not in the shoot apexper se or in leaves younger than the first leaf. Maize tissues inoculated withA. tumefaciens strains that harbourgusA-containing binary vectors but no Ti-plasmid did not show GUS activity, supporting evidence from previous work thatvir gene activity was essential for the observed GUS activity.A. tumefaciens strains containing different types of Ti-plasmids were also tested. A strain harbouring an agropine-type Ti-plasmid was the most effective for expressing GUS activity in mesocotyl segments, whereas a strain harboring a nopaline-type Ti-plasmid was most effective for expression of GUS activity in the apical meristem-containing segment. These results indicate that different interactions occurred between the differentA. tumefaciens strains and the susceptible plant tissues. Maize genotype specificity for GUS activity in mesocotyl tissues was observed; variations in the cocultivation medium had a profound effect on the frequency of expression of GUS activity.     

The sequence of a pea vicilin gene and its expression in transgenic tobacco plants

A 5.5 kb Eco RI fragment containing a vicilin gene was selected from a Pisum sativum genomic library, and the protein-coding region and adjacent 5 and 3 regions were sequenced. A DNA construction comprising this 5.5 kb fragment together with a gene for neomycin phosphotransferase II was stably introduced into tobacco using an Agrobacterium tumefaciens binary vector, and the fidelity of expression of the pea vicilin gene in its new host was studied. The seeds of eight transgenic tobacco plants showed a sixteen-fold range in the level of accumulated pea vicilin. The level of accumulation of vicilin protein and mRNA correlated with the number of integrated copies of the vicilin gene. Pea vicilin was confined to the seeds of transgenic tobacco. Using immunogold labelling, vicilin was detected in protein bodies of eight out of ten embryos (axes plus cotyledons) and, at a much lower level, in two out of eleven endosperms. Pea vicilin was synthesized early in tobacco seed development; some molecules were cleaved as is the case in pea seeds, yielding a major parental component of M _r50000 together with a range of smaller polypeptides.     

Selection of transgenic flax plants is facilitated by spectinomycin

Regeneration of transformed flax shoots after inoculation withAgrobacterium tumefaciens carrying a binary vector with either a neomycin phosphotransferase (nptII) gene and a -glucuronidase (GUS) reporter gene or a spectinomycin resistance gene was examined. Hypocotyls from 4-day-old seedlings were inoculated with either of the twoA. tumefaciens strains. Selection and regeneration were achieved on a medium containing 0.1 M thidiazuron, 0.01 M napthalene acetic acid, 100 mgl^–1 kanamycin sulphate or spectinomycin sulphate and 300 mgl^–1 cefotaxime. Use of different neomycins for the selection of transformed tissues did select transformed calli but not transformed shoots either directly or via a callus phase. Selection based on spectinomycin resistance allowed the growth of transformed shoots. Transgenic shoots were rooted on a medium containing 100 mgl^–1 spectinomycin sulphate. Integration of the spectinomycin resistance gene into the flax genome was confirmed by Southern blot hybridizations and spectinomycin resistance was shown to be inherited as a dominant Mendeliant trait. Therefore, spectinomycin resistance is more suitable for genetic engineering of flax than aminoglycoside resistance.     

Transformation of cotton (Gossypium hirsutum L.) by Agrobacterium tumefaciens and regeneration of transgenic plants

Cotton (Gossypium hirsutum L.) cotyledon tissues have been efficiently transformed and plants have been regenerated. Cotyledon pieces from 12-day-old aseptically germinated seedlings were inoculated with Agrobacterium tumefaciens strains containing avirulent Ti (tumor-inducing) plasmids with a chimeric gene encoding kanamycin resistance. After three days cocultivation, the cotyledon pieces were placed on a callus initiation medium containing kanamycin for selection. High frequencies of transformed kanamycin-resistant calli were produced, more than 80% of which were induced to form somatic embryos. Somatic embryos were germinated, and plants were regenerated and transferred to soil. Transformation was confirmed by opine production, kanamycin resistance, immunoassay, and DNA blot hybridization. This process for producing transgenic cotton plants facilitates transfer of genes of economic importance to cotton.     

Agrobacterium-mediated transformation of sweet orange and regeneration of transgenic plants

Summary Transgenic sweet orange (Citrus sinensis L. Osbeck) plants have been obtained by Agrobacterium tumefaciens-mediated gene transfer. An hypervirulent A. tumefaciens strain harboring a binary vector that contains the chimeric neomycin phosphotransferase II (NPT II) and ß-glucuronidase (GUS) genes was cocultivated with stem segments from in vivo grown seedlings. Shoots regenerated under kanamycin selection were harvested from the stem segments within 12 weeks. Shoot basal portions were assayed for GUS activity and the remaining portions were shoot tip grafted in vitro for production of plants. Integration of the GUS gene was confirmed by Southern analysis. This transformation procedure showed the highest transgenic plant production efficiency reported for Citrus.Abbreviations BA benzyladenine - CaMV cauliflowermosaic virus - GUS ß-glucuronidase - LB Luria Broth - MS Murashige and Skoog - NAA naphthalenacetic acid - NOS nopaline synthase - NPT II neomycin phosphotransferase II - PEG polyethylene glycol - RM rooting medium - SRM shoot regeneration medium     

Enhanced Resistance of Snowdrop Lectin (Galanthus nivalis L. agglutinin)-Expressing Maize to Asian Corn Borer (Ostrinia furnacalis Guenée)

Abstract: In order to enhance the resistance to pests, transgenic maize ( Zea mays L.) plants from elite inbred lines containing the gene encoding snowdrop lectin ( Galanthus nivalis L. agglutinin; GNA) under control of a phloem-specific promoter were generated through the Agrobacterium tumefaciens-mediated method. The toxicity of GNA-expressing plants to Asian corn borer ( Ostrinia furnacalis Guenée; ACB) was also studied. Thirty-six independently derived plants were subjected to molecular analyses. The level of GNA expression at 0.13%–0.28% of total soluble protein was observed in different transgenic plants. The progeny of three GNA-expressing independent transformants that were derived separately from the elite inbred lines DH4866, DH9942, and 8902, were selected for examination of resistance to ACB. These plants synthesized GNA at levels above 0.24% total soluble protein and enhanced resistance to ACB was demonstrated by exposing the plants to insects under greenhouse conditions. Semi-artificial diet bioassays also showed the toxic effect of GNA on ACB. Field evaluation of the transgenic plants supported the results from the artificial trial. In the present study, we have obtained new insect-resistant maize material for further breeding work and have found that GNA-expressing plants not only gained significant resistance to homopterans, but also showed toxicity to ACB, which is a type of Lepidoptera.
(Managing editor: Li-Hui ZHAO)     

Deviating T-DNA transfer fromAgrobacterium tumefaciens to plants

We analyzed 29 T-DNA inserts in transgenicArabidopsis thaliana plants for the junction of the right border sequences and the flanking plant DNA. DNA sequencing showed that in most lines the right border sequences transferred had been preserved during integration, corroborating literature data. Surprisingly, in four independent transgenic lines a complete right border repeat was present followed by binary vector sequences. Cloning of two of these T-DNA inserts by plasmid rescue showed that in these lines the transferred DNA consisted of the complete binary vector sequences in addition to the T-region. On the basis of the structure of the transferred DNA we propose that in these lines T-DNA transfer started at the left-border repeat, continued through the vector part, passed the right border repeat, and ended only after reaching again this left-border repeat.     

Transfer of E. coli gutD gene into maize and regeneration of salt-tolerant transgenic plants

GutD gene, encoding a key enzyme (glucitol-6-phosphate dehydrogenase) of sugar alcohol metabolic pathway inE. coli, was transferred into maize. Results of Southern and Western blotting analysis certified that this gene had integrated and been expressed in transgenic maize plants and their progeny. The synthesis and accumulation of sorbitol were detected in transgenic maize plants and a preliminary nutrient solution culture experiment showed thatgutD transgenic maize plants had an increased tolerance to salt stress compared with nontransgenic ones. Project supported by the National Natural Science Foundation of China (Grant No. 39670413) and “863” State High Technology Development Program.     

Antifeedant effects of plant lectins and an enzyme on the adult stage of the rice brown planthopper,Nilaparvata lugens

The feeding activity of adult rice brown planthopper,Nilaparvata lugens (Stal) on selected proteins incorporated into artificial diets was examined, based on quantitative analysis of honeydew excretion, in order to determine the mechanism of action of antimetabolic proteins towards homopteran pests. The lectinsGalanthus nivalis agglutinin (GNA), wheat germ agglutinin (WGA) and the enzyme soybean lipoxygenase (LPO), previously demonstrated to be toxic to this insect, reduced honeydew excretion levels of adultNilaparvata lugens over a 24 h period when incorporated into artificial diet at 0.1% {w:v}, indicating that these proteins acted as antifeedants. Of the proteins tested GNA was the most effective antifeedant, reducing honeydew droplet production by 96%, although after 24 h there was some recovery in the honeydew excretion levels and thus the insects appeared to tolerate the presence of the antifeedant with time. The lectinPisum sativum agglutinin (PSA), previously demonstrated to be non-toxic, showed no antifeedant properties.     

Regeneration of flax plants transformed by Agrobacterium rhizogenes

Regeneration of flax (Linum usitatissimum) following transformation by either Agrobacterium tumefaciens carrying a disarmed Ti-plasmid vector, or Agrobacterium rhizogenes carrying an unmodified Ri plasmid, was examined. Hypocotyl and cotyledon explants inoculated with A. tumefaciens formed transformed callus, but did not regenerate transformed shoots either directly or via callus. However, cotyledon explants inoculated with A. rhizogenes formed transformed roots which did regenerate transformed shoots. Ri T-DNA encoded opines were detected in the transformed plantlets and Southern hybridization analysis confirmed the presence of T-DNA from the Ri plasmid in their DNA. Transformed plantlets had curled leaves, short internodes and some had a more developed root system characterized by plagiotropic behaviour.     

Large-scale production and purification of recombinant Galanthus nivalis agglutinin (GNA) expressed in the methylotrophic yeast Pichia pastoris

The gene coding for agglutinin from Galanthus nivalis (GNA) was expressed in, and secreted by, the methylotrophic yeast, Pichia pastoris. Transformants of P. pastoris were selected and a process to produce and purify gram quantities of recombinant GNA was developed. GNA was secreted at approximately 80 mg l^–1 at the 200 l scale and was purified to 95% homogeneity using hydrophobic interaction chromatography. The recombinant protein was similar to the protein synthesised in plant with respect to structure and biological activity.