Production of Brassica olereceae (+Arabidopsis thaliana) and Brassica napus cell lines resistant to spectinomycin/streptomycin as a result of plastome genetic transformation

Plastid genetic transformation has been performed using both the PEG-treatment of protoplasts of somatic hybrids of B. oleracea carrying A. thaliana chloroplasts and the particle bombardment of regenerable calluses of B. napus sv. Westar. The chloroplast transformation vector pCB040 carried resistance (aadA) gene flanked by rapeseed plastid DNA sequences to target its insertion between the trnV-rps7 fragments. Selection of transplastomic cell lines has been performed according to their ability to grow on the medium supplied with spectinomycin and streptomycin in high concentrations. Antibiotic resistant cell lines have been obtained using the both transformation methods. The presence of the aadA gene in the A. thaliana and B. napus plastomes was confirmed by PCR analysis for two cell lines of B. oleracea (+ A. thaliana) and three lines of B. napus.     

Transfer of transformed chloroplasts from Nicotiana tabacum to the Lycium barbarum plants

Plastid transformation is an attractive technology for obtaining crop plants with new useful characteristics and for fundamental researches of plastid functioning and nuclear-plastid interaction. The aim of our experiments was to obtain plants with Lycium barbarum nucleus and transformed Nicotiana tabacum plastids. Plastome of previously engineered transplastomic tobacco plants contains reporter uidA gene and selective aadA gene that confers resistance to antibiotics spectinomycin and streptomycin. Asymmetric somatic hybridization was performed for transferring transformed tobacco plastids from transplastomic tobacco plants into recipient L. barbarum wild type plants. Hybrid L. barbarum plants containing transformed tobacco plastome with active aadA and uidA genes were obtained as a result of the experiments. The work shows the possibility of obtaining transplastomic plants by transferring the transformed plastids to remote species by using somatic hybridization technology. The developed technique is especially effective for obtaining transplastomic plants that have low regeneration and transformation ability.     

Fluorescent antibiotic resistance marker for tracking plastid transformation in higher plants.

Plastid transformation in higher plants is accomplished through a gradual process, during which all the 300-10,000 plastid genome copies are uniformly altered. Antibiotic resistance genes incorporated in the plastid genome facilitate maintenance of transplastomes during this process. Given the high number of plastid genome copies in a cell, transformation unavoidably yields chimeric tissues, which requires the identification of transplastomic cells in order to regenerate plants. In the chimeric tissue, however, antibiotic resistance is not cell autonomous: transplastomic and wild-type sectors both have a resistant phenotype because of phenotypic masking by the transgenic cells. We report a system of marker genes for plastid transformation, termed FLARE-S, which is obtained by translationally fusing aminoglycoside 3"-adenyltransferase with the Aequorea victoria green fluorescent protein. 3"-adenyltransferase (FLARE-S) confers resistance to both spectinomycin and streptomycin. The utility of FLARE-S is shown by tracking segregation of individual transformed and wild-type plastids in tobacco and rice plants after bombardment with FLARE-S vector DNA and selection for spectinomycin and streptomycin resistance, respectively. This method facilitates the extension of plastid transformation to nongreen plastids in embryogenic cells of cereal crops.     

Generation of fertile transplastomic soybean

We describe here the development of a plastid transformation method for soybean, a leguminous plant of major agronomic interest. Chloroplasts from embryogenic tissue of Glycine max have been successfully transformed by bombardment. The transforming DNA carries a spectinomycin resistance gene (aadA) under the control of tobacco plastid regulatory expression elements, flanked by two adjacent soybean plastome sequences allowing its targeted insertion between the trnV gene and the rps12/7 operon. All generated spectinomycin resistant plants were transplastomic and no remaining wild type plastome copies were detected. No spontaneous mutants were obtained. The transformation efficiency is similar to that of tobacco plastids. All transplastomic T0 plants were fertile and T1 progeny was uniformly spectinomycin resistant, showing the stability of the plastid transgene. This is the first report on the generation of fertile transplastomic soybean.     

In situ transfer of antibiotic resistance genes from transgenic (transplastomic) tobacco plants to bacteria

Interkingdom gene transfer is limited by a combination of physical, biological, and genetic barriers. The results of greenhouse experiments involving transplastomic plants (genetically engineered chloroplast genomes) cocolonized by pathogenic and opportunistic soil bacteria demonstrated that these barriers could be eliminated. The Acinetobacter sp. strain BD413, which is outfitted with homologous sequences to chloroplastic genes, coinfected a transplastomic tobacco plant with Ralstonia solanacearum and was transformed by the plant's transgene (aadA) containing resistance to spectinomycin and streptomycin. However, no transformants were observed when the homologous sequences were omitted from the Acinetobacter sp. strain. Detectable gene transfer from these transgenic plants to bacteria were dependent on gene copy number, bacterial competence, and the presence of homologous sequences. Our data suggest that by selecting plant transgene sequences that are nonhomologous to bacterial sequences, plant biotechnologists could restore the genetic barrier to transgene transfer to bacteria.     

Studies on Insect Resistance of Bt Transplastomic Plants and the Phenotype of Their Progenies

Insecticidal protein gene CrylA (c) from Bacillus thuringiensis (Bt toxin gene) was placed under the control of psbA5'- and 3'- regulatory regions of rice (Oryza sativa L. ) chloroplast to construct Bt expression cassette, which was ligated with selectable marker aadA cassette and homology regions of tobacco ( Nicotiana tabacum L. ) chloroplast genome to generate transformation vector pTRS8. Leaves of tobacco plant cv. NC89 were transformed with particle bombardment method, plastid transformants were selected by their resistance to 500 mg/L of spectinomycin. Some transplastomic plants were toxic to the third-instar larvae of Helicoverpa zea, and the growth of the survived insects was remarkably inhibited. Genetic and molecular analyses of T1 and T2 progenies of plants with highly efficient insect resistance showed that Bt toxin gene had been inherited in progenies, and spectinomycin resistance was inherited maternally.     

Obtaining and analysis of intergeneric somatic hybrids between Brassica napus and "albino" line of Orychophragmus violaceus

The Orychophragmus violaceus chlorophylldefective line of "albino" type has been obtained by spectinomycin treatment. Somatic hybridization between Orychophragmus violaceus and Brassica napus was performed by fusion of green mesophyll protoplasts of rape and callus protoplasts of the O. violaceus "albino" line. Near two hundred of regenerant plants were selected according to the regeneration type and ability to become green, and were determined as hybrids. Chloroplast DNA in selected hybrids was identical to rape chlDNA, which was confirmed by the PCR-RFLP analysis of plastid DNA fragments. Fragments of hybrid mitochondrial DNA analyzed by the PCR-RFLP analysis were identical to fragments of O. violaceus. The nuclear genome of the majority of hybrids was represented by the O. violaceus genome, which was demonstrated by analyses of isoenzymes, DNA telomeric sequences, ribosomal and satellite DNAs, and the RAPD analysis. The cytogenetic analysis of a number of lines has shown variability in the number of chromosomes in the obtained lines.     

In Situ Transfer of Antibiotic Resistance Genes from Transgenic (Transplastomic) Tobacco Plants to Bacteria

Interkingdom gene transfer is limited by a combination of physical, biological, and genetic barriers. The results of greenhouse experiments involving transplastomic plants (genetically engineered chloroplast genomes) cocolonized by pathogenic and opportunistic soil bacteria demonstrated that these barriers could be eliminated. The Acinetobacter sp. strain BD413, which is outfitted with homologous sequences to chloroplastic genes, coinfected a transplastomic tobacco plant with Ralstonia solanacearum and was transformed by the plant's transgene (aadA) containing resistance to spectinomycin and streptomycin. However, no transformants were observed when the homologous sequences were omitted from the Acinetobacter sp. strain. Detectable gene transfer from these transgenic plants to bacteria were dependent on gene copy number, bacterial competence, and the presence of homologous sequences. Our data suggest that by selecting plant transgene sequences that are nonhomologous to bacterial sequences, plant biotechnologists could restore the genetic barrier to transgene transfer to bacteria.     

Plastid transformants of tomato selected using mutations affecting ribosome structure

Tomato plastid transformants were obtained using two vectors containing cloned plastid DNA of either Nicotiana tabacum or Solanum nigrum and including point mutations conferring resistance to spectinomycin and streptomycin. Transformants were recovered after PEG-mediated direct DNA uptake into protoplasts, followed by selection on spectinomycin-containing medium. Sixteen lines contained the point mutation, as confirmed by mapping restriction enzyme sites. One line obtained with each vector was analysed in more detail, in comparison with a spontaneous spectinomycin-resistant mutant. Integration of the cloned Solanum or Nicotiana plastid DNA, by multiple recombination events, into the tomato plastome was confirmed by sequence analysis of the targeted region of plastid DNA in the inverted repeat region. Maternal inheritance of spectinomycin and streptomycin resistances or sensitivity in seedlings also confirmed the transplastomic status of the two transformants. The results demonstrate the efficacy in tomato of a selection strategy which avoids the integration of a dominant bacterial antibiotic resistance gene.     

Chloroplast tubules visualized in transplastomic plants expressing green fluorescent protein

A fusion between the plastid psbA promoter and the green fluorescent protein gene (gfp) was introduced into the tobacco chloroplast genome by stable plastid transformation. GFP was synthesized actively and exclusively in the chloroplasts. Tubular projections filled with GFP but containing no chlorophyll were visualized for the first time in chloroplasts of these transplastomic plants. Occasionally, the tubules connect chloroplasts with each other, suggesting the possibility of the exchange of endogenous proteins. However, the fusion of protoplasts between the transplastomic and wild-type plants showed that such chloroplast connections might be rare in mesophyll protoplasts.     

Production of asymmetric hybrids between Arabidopsis thaliana and Brassica napus utilizing an efficient protoplast culture system

Application of the protoplast culture method developed for Brassica protoplasts to protoplasts of Arabidopsis thaliana has increased the opportunities for interspecific hybridizations involving Arabidopsis. A more-efficient and much-simpler method was established compared to the earlier-reported protocol developed for A. thaliana protoplasts in which alginate beads were utilized. Mesophyll protoplasts of A. thaliana (ecotypes 'Landsberg erecta' and 'Wassilewskija') were cultured in the modified 8p liquid medium, which had been developed for Brassica protoplasts. For comparison, protoplasts were cultured in sodium alginate beads supplied with B5 medium according to the protocol for A. thaliana. The protoplasts divided with high frequencies in the 8p medium, and calli proliferated more rapidly than in the sodium alginate beads. High frequencies of shoot differentiation and regeneration were observed in calli of both ecotypes, from about 30% in the ecotype 'Wassilewskija' to about 60% for 'Landsberg erecta'. The more-rapidly the calli developed, the higher the regeneration frequencies were. Asymmetric hybrids between A. thaliana and Brassica napus were obtained by treating the protoplasts of A. thaliana with iodoacetamide (IOA) and B. napus protoplasts with UV-irradiation before fusion with polyethylene glycol (PEG). By using the culture procedure developed for Brassica protoplasts, calli developed and plants were regenerated. Although most of the plants regenerated after cell fusion were A. thaliana-like and were judged to be escapes from IOA treatment, more than ten plants showed hybrid features of both morphological and molecular characters. Among the hybrids that have flowered so far, both male-fertile and male-sterile plants have been obtained. Back-crossings to A. thaliana are now in progress as is morphological and molecular characterization of the plants.     

Phosphinothricin-resistant somatic hybrids Brassica napus + Orychophragmus violaceus

Phosphinothricin (PPT) resistant hybrid plants between Brassica napus L. cv. Kalinovsky and Orychophragmus violaceus (L.) O.E. Shulz. were obtained as a result of somatic hybridization experiments. The hybrids inherited PPT resistance from O. violaceus plants which were previously transformed by the vector containing Spm/dSpm Zea mays transposon system with bar gene located within the nonautonomous transposon. The obtained plants had intermediate morphology. Their hybrid nature has been confirmed by isozyme (esterase and amilase activity) and PCR (bar, gus, Spm/dSpm integration) analyses. The hybrids combined B. napus plastom and O. violaceus mithochondrion that was revealed by PCR-RFLP. The hybrid plants might be included to rapeseed breeding programme after examination of their oil quality as well as to chloroplast transformation experiments that is still urgent for B. napus.     

Plastid Transformation in Lesquerella Fendleri,an Oilseed Brassicacea

A plastid transformation protocol was developed for Lesquerella fendleri, a species with a high capacity for plant regeneration in tissue culture. Transformation vector pZS391B carried an aadA16gfp marker gene conferring streptomycin–spectinomycin resistance and green fluorescence under UV light. Biolistic transformation of 51 Lesquerella leaf samples, followed by spectinomycin selection, yielded two transplastomic clones. The AAD–GFP fusion protein, the marker gene product, was localized to chloroplasts by confocal laser microscopy. Fertile plants and seed progeny were obtained in line Lf-pZS391B-1. In the 51 samples a large number (108) of spontaneous mutants were identified. In five of the lines spectinomycin resistance was localized to a conserved stem structure by sequencing 16S rRNA genes. Success in L. fendleri, a wild oilseed species, extends plastid transformation beyond Arabidopsis thaliana in the Brassicaceae family.     

甘蓝型油菜与蔊菜的原生质体融合与植株再生

以甘蓝型油菜下胚轴和蔊菜叶片为外植体提取原生质体, 采用PEG-高pH、高Ca²⁺附加DMSO的原生质体融合方法, 用液体浅层静置培养融合体, 获得了10株融合杂种, 观察了杂种形态学和细胞学。结果表明：1%纤维素酶+0.2%离析酶+3 mmol/L MES 酶解14 h 可获得较高产率的油菜原生质体, 0.25% 纤维素酶+0.5%离析酶+5 mmol/L MES酶解12 h可获得较高产率的蔊菜原生质体; 30% PEG + 0.3 mol/L葡萄糖+50 mmol/L CaCl₂•2H₂O +15%DMSO的融合条件下, 获得了10.4%的融合率; 实验所获的原生质体融合材料可作为新种质。     

Transformation of Brassica napus by using the aadA gene as selectable marker and inheritance studies of the marker genes

An Agrobacterium tumefaciens -mediated transformation system for Brassica napus has been improved. We investigated several marker genes for transformation of Brassica napus , and the aadA gene, which confers resistance to streptomycin and spectinomycin, was found to be the most suitable. Forty-three out of 193 putative transformants in the T₁ generation were investigated by Southern blot analysis. Transformants containing a range of 1 to 10 integrated T-DNA copies per genome were found. Total DNA from 35 plants showed hybridisation to both the aadA and the nptll marker gene probes, from 5 plants only to one marker gene probe and from 3 plants DNA did not hybridise to any of the gene probes. Furthermore, more complex integration patterns such as direct repeated copies of the T-DNA, both as tandem and inverted copies, were observed. Inheritance of the marker genes in the T₂ generation was studied in 37 of the plants. This revealed that 22% of the plants that contained both marker genes, segregated as one single locus (3:1) for both genes, while 46% of the plants gave a segregation pattern corresponding to one T-DNA locus for at least one of the marker genes. Moreover, these inheritance patterns appeared to be more or less independent of the number of genes seen in the Southern blot analysis of the T, generation. In this study we show that the introduced marker genes are inherited by the T; generation in a less predictable way than was earlier reported for B. napus .     

Introduction of transformed chloroplasts from tobacco into petunia by asymmetric cell fusion

Plastid engineering technique has been established only in Nicotiana tabacum, and the widespread application is severely limited so far. In order to exploit a method to transfer the genetically transformed plastomes already obtained in tobacco into other plant species, somatic cell fusion was conducted between a plastome transformant of tobacco and a cultivar of petunia (Petunia hybrida). A tobacco strain whose plastids had been transformed with aadA (a streptomycin/spectinomycin adenylyltransferase gene) and mdar [a gene for monodehydroascorbate reductase (MDAR)] and a petunia variety, ‘Telstar’, were used as cell fusion partners. An efficient regeneration system from the protoplasts of both the parents, and effectiveness of selection for the aadA gene with spectinomycin were established before the cell fusion. In addition, the influence of UV irradiation on the callus development from the protoplasts and shoot regeneration of tobacco was investigated. Protoplasts were cultured after cell fusion treatment with polyethylene glycol, and asymmetric somatic cybrids were selected using the aadA gene as a marker. Although many shoots of tobacco that had escaped the UV irradiation regenerated, several shoots possessing the morphology of petunia and the resistance to spectinomycin were obtained. Molecular analyses of the petunia type regenerants demonstrated that they had the nuclear and mitochondrial genomes derived from petunia besides the chloroplasts of tobacco transformed with aadA and mdar. Furthermore, it was ascertained that mdar was transcribed in the somatic cybrids. The results indicate the success in intergeneric transfer of transformed plastids of tobacco into petunia.     

Aminoglycoside-3″-adenyltransferase confers resistance to spectinomycin and streptomycin in Nicotiana tabacum

The bacterial gene aad A encodes the enzyme aminoglycoside-3-adenyltransferase that confers resistance to spectinomycin and streptomycin in Escherichia coli. Chimeric genes have been constructed for expression in plants, and were introduced into Nicotiana tabacum by Agrobacterium binary transformation vectors. Spectinomycin or streptomycin in selective concentrations prevent greening of N. tabacum calli. Transgenic clones, however, formed green calli on selective media containing spectinomycin, streptomycin, or both drugs. Resistance was inherited as a dominant Mendelian trait in the seed progeny. Resistance conferred by the chimeric aad A gene can be used as a color marker similar to the resistance conferred by the streptomycin phosphotransferase gene to streptomycin.     

Low probability of chloroplast movement from oilseed rape (Brassica napus) into wild Brassica rapa

Pollen-mediated movement of transgenes from transplastomic oilseed rape (Brassica napus) into wild relatives will be avoided if chloroplasts are maternally transmitted. We assess the probability of chloroplast exchange between conventional oilseed rape and wild Brassica rapa to model the future behavior of transplastomic cultivars. Primers specific to cpDNA were used to demonstrate maternal inheritance of chloroplasts in 47 natural hybrids between cultivated B. napus and wild B. rapa. We conclude that there will be no or negligible pollen-mediated chloroplast dispersal from oilseed rape. Transgene introgression could still occur in mixed populations, however, if B. napus acted as the recurrent female parent. Rate of transfer would then depend on the abundance of mixed populations, their persistence as mixtures, and hybridization frequency within stands. A low incidence of sympatry (0.6-0.7%) between wild B. rapa and cultivated B. napus along the river Thames, UK, in 1997 and 1998, suggests mixed stands will form only rarely. Eighteen feral populations of B. napus also showed a strong tendency toward rapid decline in plant number, seed return, and ultimately, extinction within 3 years. Conversely, hybrid production is significant in mixed stands, and the absence of control practices means that oilseed rape will have slightly greater persistence. We infer that some introgression from transplastomic B. napus into B. rapa is inevitable in mixed populations even though such populations will occur infrequently and will tend to lose B. napus plants relatively quickly. Chloroplast exchange will be extremely rare and scattered.     

Removal of antibiotic resistance genes from transgenic tobacco plastids

Removal of antibiotic resistance genes from genetically modified (GM) crops removes the risk of their transfer to the environment or gut microbes. Integration of foreign genes into plastid DNA enhances containment in crops that inherit their plastids maternally. Efficient plastid transformation requires the aadA marker gene, which confers resistance to the antibiotics spectinomycin and streptomycin. We have exploited plastid DNA recombination and cytoplasmic sorting to remove aadA from transplastomic tobacco plants. A 4.9 kbp insert, composed of aadA flanked by bar and uidA genes, was integrated into plastid DNA and selected to remove wild-type plastid genomes. The bar gene confers tolerance to the herbicide glufosinate despite being GC-rich. Excision of aadA and uidA mediated by two 174 bp direct repeats generated aadA-free T(0) transplastomic plants containing the bar gene. Removal of aadA and bar by three 418 bp direct repeats allowed the isolation of marker-free T(2) plants containing a plastid-located uidA reporter gene.