Localization and orientation of the VirD4 protein of Agrobacterium tumefaciens in the cell membrane

Summary The virD4 gene of Agrobacterium tumefaciens is essential for the formation of crown galls. Analysis of the nucleotide sequence of virD4 has suggested that the N-terminal region of the encoded protein acts as a signal peptide for the transport of the VirD4 protein to the cell membrane of Agrobacterium. We have examined the localization and orientation of this protein in the cell membrane. When the nucleotides encoding the first 30 to 41 amino acids from the N-terminus of the VirD4 protein were fused to the gene for alkaline phosphatase from which the signal sequence had been removed, alkaline phosphatase activity was detectable under appropriate conditions. Immunoblotting with VirD4-specific antiserum indicated that the VirD4 protein could be recovered exclusively from the membrane fraction of Agrobacterium cells. Moreover, when the membrane fraction was separated into inner and outer membrane fractions by sucrose density-gradient centrifugation, VirD4 protein was detected in the inner-membrane fraction and in fractions that sedimented between the inner and outer membrane fractions. By contrast, the VirD4/alkaline phosphatase fusion protein with the N-terminal sequence from VirD4 was detected only in the inner membrane fraction. Treatment of spheroplasts of Agrobacterium cells with proteinase K resulted in digestion of the VirD4 protein. These results indicate that the VirD4 protein is transported to the bacterial membrane and anchored on the inner membrane by its N-terminal region. In addition, the C-terminal portion of the VirD4 protein probably protrudes into the periplasmic space, perhaps in association with some unidentified cellular factor(s).Deceased June 5, 1988     

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.     

农杆菌介导的携带egfp基因载体转化寡雄腐霉

【目的】寡雄腐霉(Pythium oligandrum Drechsler)是一种对动、植物和环境无害,兼具杀菌和增产效果的生防真菌。通过研究建立农杆菌介导的寡雄腐霉遗传转化体系。【方法】选用EHA105、AGL-1、LBA4404三种农杆菌菌株对寡雄腐霉进行遗传转化研究,通过对影响遗传转化效果的条件参数试验优化,确立适宜寡雄腐霉遗传转化的农杆菌菌株及转化条件,建立农杆菌介导的寡雄腐霉遗传转化体系。【结果】经研究发现,所选3种农杆菌菌株中EHA105菌株对寡雄腐霉的遗传转化效果最好,其次是AGL-1菌株,LBA4404菌株转化效果不好。EHA105菌株经IM(含300μmol/L AS)诱导培养至OD_(600)=0.6时,与浓度为10~6–10~7个/m L的寡雄腐霉孢子悬浮液以1–10:1的比例混合,在25–26°C以液体振荡的方式避光共培养72 h(pH 5.0,含300μmol/L AS),寡雄腐霉菌体液体振荡恢复培养24 h,涂布抗性选择平板筛选寡雄腐霉转化子,即可得到寡雄腐霉基因工程菌株,其转化率可达到130个转化子/106个孢子。【结论】本研究首次构建了农杆菌介导的寡雄腐霉遗传转化体系,研究结果可为寡雄腐霉的生防机制及分子育种研究提供技术支撑。     

Transgenic grapefruit plants expressing the PAPETALA3-IPT gp gene exhibit altered expression of PR genes

Transgenic grapefruit plants (Citrus paradisi cv. ‘Duncan’) with the isopentenyltransferase (ipt) gene under the control of APETALA3 promoter have been produced using Agrobacterium-mediated transformation. The relative expression level of the ipt gene was between 2.3 and 7 times higher in transformed plants than in the wild-type but despite the presence of a tissue-specific promoter, the expression was not limited only to flower tissue. Increased levels of trans-zeatin riboside between 9.4 and 32-fold found in transgenic grapefruit were considered the consequence of ectopic expression of the ipt gene. Chlorophyll levels in fully expanded uppermost leaves were also about 30% higher in transgenic than in wild-type plants. Involvement of cytokinins in control of expression of three pathogenesis-related protein genes: β-1,3-glucanase, a stress related PR gene 24P220, and an acidic chitinase, 24P262 was examined. Expression of β-1,3-glucanase, and 24P220 gene were significantly enhanced in transgenic plants while the expression of chitinase was reduced to low levels. Our results confirm the effect of cytokinins on expression of genes implicated in the response of grapefruit plants to pathogen attack and suggest a possible role of cytokinins in pathogen resistance.     

T-DNA structure and gene expression in petunia plants transformed by Agrobacterium tumefaciens C58 derivatives

Summary We have previously described substantial variation in the level of expression of two linked genes which were introduced into transgenic petunia plants using Agrobacterium tumefaciens. These genes were (i) nopaline synthase (nos) and (ii) a chimeric chlorophyll a/b binding protein/octopine synthase (cab/ocs) gene. In this report we analyze the relationship between the level of expression of the introduced genes and T-DNA structure and copy number in 40 transgenic petunia plants derived from 26 transformed calli. Multiple shoots were regenerated from 8 of these calli and in only 6 cases were multiple regenerated shoots from each callus genotypically identical to each other. Many genotypes showed no nos gene expression (22/28). Most of the plants (16/22) which lacked nos gene expression did contain nos-encoding DNA with the expected restriction enzyme map. Similarly, amongst the genotypes showing no cab/ocs gene expression, the majority (11/28) did not show any alterations in restriction fragments corresponding to the expected cab/ocs coding sequences (10/11). Approximately half of the plants carried multiple copies of T-DNA in inverted repeats about the left or right T-DNA boundaries. No positive correlation was observed between the copy number of the introduced DNA and the level of expression of the introduced genes. However, plants with high copy number complex insertions composed of multiple inverted repeats in linear arrays usually showed low levels of expression of the introduced genes.     

Agrobacterium tumefaciens-mediated transformation of the legume Astragalus sinicus using kanamycin resistance selection and green fluorescent protein expression

To develop an efficient protocol for the transformation of the legume Astragalus sinicus (Chinese milk vetch), cotyledon segments were infected with Agrobacterium tumefaciens strain EHA105 harboring the binary vector pBINm-gfp5-ER which carries the gfp5 gene encoding green fluorescent protein and the kanamycin (Km) resistance gene nptII. The infected explants were cultured on shoot regeneration (SR) medium containing 1.0 mg l^–1 -naphthaleneacetic acid (NAA) and 1.0 mg l^–1 thidiazuron (TDZ). Putative transformed shoots were selected on SR medium containing 75 g ml^–1 Km, 200 g ml^–1 Timentin, and transformation was monitored by observation of GFP expression under a dissecting fluorescence microscope with appropriate filters. The identification of GFP-expressing shoots or callus in combination with Km selection allowed the visual selection of growing transgenic cells and shoots with no escapes. Plants were regenerated from seven independent transgenic events and five plants have set seed. GFP expression segregated in the T₁ seedlings of the two lines tested in a 3 – 1 ratio. In addition to the GFP expression of the transgenic plants, the transgenic nature of individual plants was confirmed by Southern and Western blot analyses.     

根癌土壤农杆菌VirD2蛋白基因的克隆及原核表达

根据U．Washington发表的根癌土壤农杆菌(Agribacterium tumefaciens)C58Ti质粒基因序列,设计一对引物含NcoⅠ、SalⅠ酶切位点,利用PCR的方法,扩增了C58根癌土壤农杆菌Ti质粒毒性区蛋白VirD2基因,连接T载体经测序与发表的序列同源性达100％。将目的片段从T载体上切下,连接至原核表达载体PET-30a上,转化E．coliDH5α,筛选出阳性免隆,提质粒转化E．coil BL21,用IPTG诱导表达,经SDS-PAGE电泳,发现与对照比较在近50kD处有特异条带,与理论大小(49．5kD)相符表明所克隆的VirD2基因获得了原核表达。     

Transformation of carrot tissues derived from proembryogenic suspension cells: A useful model system for gene expression studies in plants

A method is described for the high frequency transformation of carrot proembryogenic suspension culture cells by a non-oncogenic Ti-plasmid vector (pGV3850::1103) which carried a chimaeric kanamycin resistance gene (nos-NPT-II). Plants were regenerated efficiently from transformed material by somatic embryogenesis in the presence of kanamycin. Transformed tissues expressed readily detectable levels of both NPT-II and nopaline. NPT-II could be detected in total protein extracts by Western blotting. This analysis indicated that NPT-II was produced as a single, full length polypeptide. The T-DNA copy number in individually selected transformants was analysed by Southern blotting and ranged from 1–8 per diploid genome. The copy number and organization of the T-DNA was retained in plants regenerated from these transformants by somatic embryogenesis. These data suggested a clonal origin for the selected kanamycin resistant colonies. NPT-II expression levels appeared to be directly related to gene dosage.     

Nuclear protein 780BP from cauliflower binds an element in the 780 gene promoter of T-DNA

A 16 bp site of protein binding has been identified in the promoter of the 780 gene of T-DNA. Specific DNA-protein interactions were demonstrated between a double-stranded oligonucleotide containing this element (5-TTGAAAAATCAACGCT-3) and a protein isolated from nuclear extracts of cauliflower inflorescences. Specific bases required for this binding activity (780 binding protein; 780BP) were defined by kinetic competition studies with mutated oligonucleotides, methylation interference assays and DNAse I footprinting. 780BP binding was not competed with up to 1000-fold excess of previously characterized plant regulatory elements such as as-1, the LRE, and the ocs, G-box, and AT-rich elements. In addition, 780BP was shown to bind sequences overlapping a mammalian hormone receptor element with greater affinity than the 780 element.     

Inheritance of a bacterial hygromycin phosphotransferase gene in the progeny of primary transgenic pea plants

Summary An analysis of the progeny of primary transgenic pea plants in terms of transmission of the transferred DNA, fertility and morphology is presented. A transformation system developed for pea that allows the regeneration of fertile transgenic pea plants from calli selected for antibiotic resistance was used. Expiants from axenic shoot cultures were co-cultivated with a nononcogenic Agrobacterium tumefaciens strain carrying a gene encoding hygromycin phosphotransferase as selectable marker, and transformed callus could be selected on callus-inducing media containing 15 mg/l hygromycin. After several passages on regeneration medium, shoot organogenesis could be reproducibly induced on the hygromycin resistant calli, and the regenerated shoots could subsequently be rooted and transferred to the greenhouse, where they proceeded to flower and set seed. The transmission of the introduced gene into the progeny of the regenerated transgenic plants was studied over two generations, and stable transmission was shown to take place. The transgenic nature of the calli and regenerated plants and their progeny was confirmed by DNA and RNA analysis. The DNA and ploidy levels of the progeny plants and primary regenerants were studied by chromosome analysis, and the offspring of the primary transformants were evaluated morphologically.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - BA 6-ben-zyladenine - hpt hygromycin phosphotransferase gene - IAA indole acetic acid, kin, kinetin - NAA -naphtalene acetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Extent of ipt gene expression and resulting amount of cytokinins affect activities of carboxylation enzymes in transgenic plants

Three types of transgenic plants of Solanum tuberosum cvs. Kamyk and Oreb, and Nicotiana tabacum cvs. Maryland Mammoth and Trapezond were selected according to intensity of introduced ipt gene expression and resulting amount of synthesised cytokinins (CKs). In comparison with controls, original transgenic regenerants grown in vitro showed a massive increase of CK contents, in tobacco by 379 % and in potato by 159 % (MAS). Potato grown in soil from tubers of transgenic plants demonstrated a moderate increase (44 %) of CK contents (MOD). Transgenic tobacco grown from seeds in vitro did not show any significant change in CK contents (NOT). Initial (RuBPC_i and RuBPO_i) and total (RuBPC_t) activities of ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCO), and the activity of phosphoenolpyruvate carboxylase (PEPC) were not significantly affected by the transformation in the NOT plants. In the MOD plants, the RuBPCO activities were stimulated by up to 34 % whereas the PEPC activity was decreased by 17 %. On the other hand, all the measured enzyme activities were 32 – 91 % lower in the MAS. Leaf area, fresh and dry masses, and chlorophyll and soluble protein contents also went down with increasing CK amounts in the transformants. Dependence of RuBPC_i/RuBPO_i and RuBPC_t/PEPC ratios on the relative CK amounts in transgenic plants revealed that the individual enzyme activities were not affected uniformly. Endogenous CK contents in the MAS thus apparently exceeded an optimum needed for positive effects on many physiological traits and became a stress factor for such plants.     

Isolation, purification, and identification of the virulence protein VirE2 from Agrobacterium tumefaciens

Bacteria of the genus Agrobacterium can transfer a portion of their Ti plasmid (T-DNA) in complex with the VirE2 and VirD2 proteins into the plant-cell nucleus and cause it to be integrated in the host-cell chromosomes. The mechanism of T-DNA transfer across the plant-cell membrane and cytoplasm is unknown. The aim of this study was to isolate the virulence protein VirE2 in order to explore its role in T-DNA transfer across the eukaryotic-cell membrane and cytoplasm. To obtain VirE2, we cloned the virE2 gene into plasmid pQE31 in Escherichia coli cells. VirE2 protein was isolated from E. coli XL-1 blue cells containing a recombinant plasmid, pQE31-virE2. The cells were ultrasonically disrupted, and the protein containing six histidine residues at the N-terminal end was isolated by affinity chromatography on Ni-NTA agarose. The purified preparation was tested by immunodot, by using polyclonal rabbit antibodies and miniantibodies produced toward VirE2. The capacity of the recombinant protein VirE2 for interacting with single-stranded DNA was tested by the formation of complexes, recorded by agarose-gel electrophoresis. In summary, A. tumefaciens virulence protein VirE2, capable of forming a complex with single-stranded T-DNA during transfer into the plant cell, was isolated, purified, and partially characterized. Anti-VirE2 miniantibodies were obtained, and direct labeling of VirE2 with colloidal gold was done for the first time.     

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.     

Transformation of vitis tissue by different strains of Agrobacterium tumefaciens containing the T-6b gene

Summary Stem pieces and leaf disks of Vitis spp. were cocultured with Agrobacterium tumefaciens strains carrying the UidA (ß-glucuronidase = GUS) gene. The transformation efficiency was highly increased by using a modified T-6b gene (a gene from pTiTm4) which interferes with normal growth and allows regeneration of normal Nicotiana rustica plants (Tinland 1990). The strains first tested on stem segments were subsequently tested in a leaf explant system. On leaves the transformation efficiency of the strains was much lower than with stems. Both the T-6b gene and the hsp 70-T-6b gene (a modified T-6b gene under the control of a heat shock promoter) allowed the initiation of GUS-positive buds.Abbreviations GUS ß-glucuronidase - BAP benzylaminopurine - X-gluc 5-bromo-4-chloro-3-indolyl glucuronide     

Potential use of theaux2 gene fromAgrobacterium rhizogenes as a conditional negative marker in transgenic cabbage

An originalAgrobacterium tumefaciens-mediated transformation procedure, based on the actions of both wild type and disarmed bacterial strains, was developed. Theaux2 gene ofA. rhizogenes was introduced into a rapid-cycling genotype of cabbage (Brassica oleracea L.). Theaux2 gene product converts naphthalene acetamide into the auxin naphthalene acetic acid. Expression of this gene in the transgenic progeny grownin vitro led to an altered root phenotype. On a medium supplemented with napthalene acetamide (NAM), two of the three analysed progenies were characterized by the formation of callus instead of roots, whereas on a NAM-free medium all the plantlets from these progenies presented a normal phenotype. Expression of theaux2 gene was also assessed under horticultural conditions by sowing seeds in sand and watering them with a nutritive solution supplemented with NAM. Under these conditions, NAM inhibited the formation of a root system in transgenic plantlets and induced the death of the transgenic plantlets three to four weeks after germination. Thus,aux2 acts as a lethal conditional marker which could be used in negative selection of cabbage. Potential utilization of theaux2 gene to screen spontaneous androgenetic plants in order to transfer cytoplasmic male sterility in a single generation is discussed.     

T-DNA genes to study plant development: precocious tuberisation and enhanced cytokinins in A. tumefaciens transformed potato

Summary Potato Line Mb1501B is a derivative of the cultivar Maris Bard (Solanum tuberosum), transformed with T-DNA from A. tumefaciens strain LBA1501. In culture it grew as frequently branching stunted shoots with a basal callus, lacking roots. These shoots did not form tubers. When grafted, Mb1501B shoots gradually became morphologically more normal and aerial tubers formed readily. Cultured Mb1501B shoots contained 100–200-fold higher concentrations of the biologically-active cytokinins zeatin, zeatin riboside and their corresponding side-chain o-glucosides than untransformed Maris Bard shoots. Cultured Mb1501B shoots contained approximately a 3-fold lower concentration of indole acetic acid (IAA). In grafted Mb1501B plants a 3–10-fold higher concentration of the active cytokinins was found compared with untransformed plants and no difference in IAA concentration.