Homologous recombination in plant cells after Agrobacterium-mediated transformation.

A single amino-acid change in the acetolactate synthase (ALS) protein of tobacco confers resistance to the herbicide chlorsulfuron. A deleted, nonfunctional fragment from the acetolactate synthase gene, carrying the mutant site specifying chlorsulfuron resistance plus a closely linked novel restriction site marker, was cloned into a binary vector. Tobacco protoplasts transformed with Agrobacterium tumefaciens carrying this vector yielded chlorsulfuron-resistant colonies. DNA gel blot analysis of DNA from these colonies suggested that in three transformants homologous recombination had occurred between the endogenous ALS gene and the deleted ALS gene present in the incoming T-DNA. Plants were regenerated from these chlorsulfuron-resistant colonies, and in two of the transformants, genetic analysis of their progeny showed that the novel gene segregated as a single Mendelian locus. Possible models for the generation of these recombinant plants are discussed.     

Uptake, integration, expression and genetic transmission of a selectable chimaeric gene by plant protoplasts

Summary Genetic transformation of Nicotiana tabacum protoplasts was achieved by incubation of protoplasts with a plasmid DNA-calcium phosphate coprecipitate, followed by fusion of the protoplasts in the presence of polyvinyl alcohol and subsequent exposure to high pH. A derivative of the plasmid pBR322 containing a chimaeric gene, consisting of the nopaline synthase promoter, the coding region of the aminoglycoside phosphotransferase gene of Tn5 and the polyadenylation signal region of the octopine synthase gene, was used for these transformation experiments. This chimaeric gene confers resistance of transformed plant cells to kanamycin. This novel transformation procedure reproducibly yielded transformants at frequencies of approximately 0.01%. Aminoglycoside phosphotransferase II activity was detected in both transformed calli and in regenerated plants. DNA from some of the transformed clones was analyzed by Southern blot hybridization. The input DNA appears to be integrated into high molecular weight cellular DNA. Genetic analysis of one of the kanamycin resistant plants shows that the chimaeric gene is transmitted to the progeny as a single dominant trait in a Mendelian fashion. As a comparison the input DNA was also introduced into tobacco protoplasts using Agrobacterium tumefaciens and Ti-plasmid derived gene vectors.Dedicated to Professor Georg Melchers to celebrate his 50-year association with the journal     

Liposome-mediated transformation of tobacco mesophyll protoplasts by an Escherichia coli plasmid.

An Escherichia coli plasmid, pLGV23neo, carrying a kanamycin resistance gene expressed in plant cells, was encapsulated into negatively charged liposomes prepared by the reverse phase evaporation technique. These liposomes were induced to fuse with tobacco mesophyll protoplasts by polyethyleneglycol treatment. Kanamycin-resistant clones were reproducibly isolated from transfected cultures at an average frequency of 4 X 10(-5). Plants regenerated from these resistant colonies were confirmed to be transformed according to three criteria. Protoplasts isolated from their leaves were resistant to 100 micrograms/ml kanamycin. The enzyme aminoglycoside 3'-phosphotransferase II encoded by the plasmid pLGV23neo was detected in leaf extracts. Approximately 3-5 copies of the gene encoding for kanamycin resistance were inserted in the genome of at least one of the studied transformants. The restriction pattern of inserted DNA was best explained by assuming a tandem integration of the pPLGV23neo sequences, implying an homologous recombination event between these sequences during transformation. Kanamycin resistance was transmitted as a single dominant nuclear marker to the progeny of resistant plants after selfing or cross-pollination with the wild-type.     

In vitro study of transgenic tobacco expressing Arabidopsis wild type and mutant acetohydroxyacid synthase genes

Summary Genes coding for the enzyme acetohydroxyacid synthase, often referred to as acetolactate synthase (AHAS, ALS; EC 4.1.3.18), from wild type Arabidopsis thaliana and a sulfonylurea-resistant mutant line GH50 (csrl-1; Haughn et al. 1988) were introduced in Nicotiana tabacum. Both genes were expressed at high levels with the 35S promoter. The csrl-1 gene conferred high levels of resistance to chlorsulfuron whereas the wild type gene did not. As selectable markers, chimaeric AHAS genes yielded transgenic plants on chlorsulfuron but at much lower efficiencies than with a chimaeric neomycin phosphotransferase gene on kanamycin (Sanders et al. 1987). Shoot differentiation from leaf discs was delayed on chlorsulfuron by 4–6 weeks. This study indicated a role for mutant AHAS genes in the genetic manipulation of herbicide resistance in transgenic plants but as selectable markers for plant cells undergoing differentiation no advantage over other genes was perceived.     

High-frequency transformation of Brevibacterium lactofermentum protoplasts by plasmid DNA.

An efficient polyethylene glycol-assisted method for transformation of Brevibacterium lactofermentum protoplasts that uses plasmid vectors has been developed. Two small plasmids, pUL330 (5.2 kilobases) and pUL340 (5.8 kilobases), both containing the kanamycin resistance gene from transposon Tn5 and the replication origin of the natural plasmid pBL1 of B. lactofermentum, were selected as vectors. Supercoiled forms of the plasmids yielded a 100-fold higher transformation frequency than did linear forms. The optimal transformation frequency was achieved with 10 ng of DNA in 1 ml of transformation buffer. Higher concentrations of plasmid DNA resulted in a decrease in transformation frequency per microgram of DNA. Optimal transformation was obtained with 25 to 35% polyethylene glycol 6000. Under optimal conditions, 10(6) transformants per microgram of DNA were obtained.     

Electroporation of rapeseed protoplasts – transient and stable transformation

Protoplasts of Brassica napus hypocotyls were transfected using electroporation. Parameters such as discharge potential, protoplast density and buffer constituents were tested to determine the most suitable conditions for gene transfer. To monitor the introduction of DNA into protoplasts a plasmid containing the β-glucuronidase (EC 3.2.1.31), and the neomycin phospotransferase (EC 2.7.1.95) genes was used. By using this construct, expression of a screenable marker gene for transient expression analysis as well as an antibiotic resistance marker gene for selection of stable transformants were obtained. Refined electroporation conditions resulted in a frequency of 0.1% transiently transformed protoplasts. Microcalluses were cultured under selective conditions in a bead-type culture system. Resistant callus, with an absolute transformation frequency of 4.9 × 10⁻⁵ and a relative transformation frequency of 0.3% could be achieved. X-ray irradiation of newly electroporated protoplasts did not enhance absolute transformation frequencies. From some of the resistant calluses, transgenic plants could be regenerated which were characterized by molecular analysis.     

Transformation of Phycomyces with a bacterial gene for kanamycin resistance

Summary Phycomyces protoplasts transformed with a plasmid containing the bacterial gene for kanamycin resistance grow in the presence of G418, a kanamycin analogue. The plasmid also contains a Phycomyces DNA sequence that supports autonomous replication in yeast. We obtained about 250 transformants per microgram DNA or one per 5000 viable protoplasts. The transformant phenotype is retained under selective conditions and lost in the majority of the vegetative spores. Recovered plasmids and Southern analysis indicate that the plasmid probably replicates autonomously in Phycomyces.     

Binding of ColE1-kan Plasmid DNA by Tobacco Protoplasts: Nonexpression of Plasmid Gene

Protoplasts prepared from cultured tobacco cells were treated with ColE1-kan plasmid DNA, a hybrid of ColE1 and pSC105 plasmids bearing a gene for kanamycin resistance. The conditions employed permitted the uptake or irreversible binding of 2.9% of the added DNA in acid-insoluble form. Upon commencement of division, the treated cells were plated in agar medium containing kanamycin and differentiating hormones. Plantlets or shoots obtained as presumptive transformants were further tested on kanamycin medium by subculturing small leaf pieces. No evidence was obtained for expression of the kanamycin resistance gene of ColE1-kan in tobacco tissue.     

Genetic transformation of plants by protoplast electroporation

This article describes an optimized protocol for the electroporation of tobacco mesophyll protoplasts together with notes and data on the effects of various parameters and suggestions for work with protoplasts of other species. In this protocol, electroporation is achieved by means of electrical pulses from a high-voltage, capacitive-discharge unit. Procedures are described for measurement of protoplast viability with Evan's blue, the detection of transient expression of CAT and GUS gene plasmid constructs, and for the recovery of stable transformants based on selection for kanamycin resistance.     

Recovery of transgenic trees after electroporation of poplar protoplasts

Protoplasts from leaflets ofin vitro cuttings were electroporated in osmotically adjusted and buffered solutions containing plasmid DNA: pABD1, carrying thenptII gene for resistance to neomycin; pGH1, carrying a mutant acetolactate synthase gene,als, for resistance to sulfonylurea; and pGSFR781A, carrying a synthetic phosphinothricin acetyltransferase (pat) for resistance to phosphinothricin (Basta). Gene transfer was repeatedly efficient, without use of carrier DNA, in the range of one transformant for 10⁵ to 10⁴ protoplast-derived cell colonies. This was probably due to the high plating efficiency (30%) of protoplasts in our culture process. Selection for expression of foreign genes was applied in liquid medium and repeatedly achieved with 30 M paromomycin for NPTII, 200 nM chlorsulfuron for the mutant ALS ofArabidopsis and 25 M phosphinothricin for PAT expression. Integration of foreign genes into genomic DNA of resistant poplar trees was demonstrated by Southern blot hybridizations, which revealed that for some transformants practically no other part of the vector plasmid than the selected gene was integrated.Effective processes for protoplast culture, efficient selection at the cell colony stage and gene transfer will provide new possibilities in poplar breeding.     

Specialized binary vector for plant transformation: expression of the Arabidopsis thaliana AHAS gene in Nicotiana tabacum.

We constructed a cosmid vector, pOCA18, designed for transferring plant genomic libraries from Agrobacterium tumefaciens to plants. Clones from a genomic library of Arabidopsis thaliana DNA in pOCA 18 were propagated stably in both Escherichia coli and A. tumefaciens. Clones from the pOCA18 A. thaliana library were used to construct transgenic Nicotiana tabacum plants; the DNA inserts were transferred intact in 10 out of 16 transgenic N. tabacum plants examined but were partially deleted in six others. Transgenic N. tabacum plants constructed with a mutant A. thaliana acetohydroxy acid synthase gene (from the pOCA18 library) that encodes an enzyme resistant to the herbicide chlorsulfuron were resistant to chlorsulfuron. A statistical analysis indicated that if the A. thaliana library contains 10(7) members and if 10(7) A. tumefaciens transconjugants containing the library were used to transform plant cells, then 2 x 10(4) transformed plant cells must be generated to have a 95% probability of constructing a transgenic plant carrying a specific DNA sequence from the A. thaliana library.     

Production of fertile transgenic lentil (Lens culinaris Medik) plants using particle bombardment

Summary A reproducible system for gene transfer in lentil through particle bombardment is presented. Lentil cotyledonary nodes excised from germinated seedlings were bombarded with a plasmid containing a mutant acetolactate synthase gene (ALS) from tobacco conferring resistance to sulfonylurea herbicides. Putative transgenic shoots regenerated on Murashige and Skoog medium supplemented with 6-benzylaminopurine (BA) and chlorsulfuron (5 nM for first 4 wk followed by 2.5 nM for the remainder of the culture period) were micrografted and successfully transferred to soil. T₀ and selfed progeny plants were screened using metsulfuron herbicide leaflet painting. The non-transformed escapes died and transformed plants survived the test. The surviving plants were phenotypically normal and produced viable seeds. The presence and stable transmission of the transgene into genomic DNA of screened T₁ transformants was confirmed by PCR and Southern hybridization. This method for producing transformed plants will allow new opportunities for lentil breeding to produce improved cultivars.     

Transformed calli obtained by direct gene transfer into sunflower protoplasts

Helianthus annuus protoplasts were transformed with the plasmid pCaMVNEO (Frommet al. 1986) conferring kanamycin resistance to plant. Transformed calli were selected with a frequency of 4 calli for 10⁶ treated protoplasts. DNA was extracted from kanamycin resistant calli. Analysis of this DNA shows the presence of the NPTII gene.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4 dichlorophenoxyacetic acid - IAA Indole-3-acetic acid - NAA 1-naphtalenoacetic acid - NPT Neomycin phosphotransferase - PEG Polyethyleneglycol     

Agrobacterium mediated transfer of a mutant Arabidopsis acetolactate synthase gene confers resistance to chlorsulfuron in chicory (Cichorium intybus L.)

Summary Leaf discs of C. intybus were inoculated with an Agrobacterium tumefaciens strain harboring a neomycin phosphotransferase (neo) gene for kanamycin resistance and a mutant acetolactate synthase gene (csr1-1) from Arabidopsis thaliana conferring resistance to sulfonylurea herbicides. A regeneration medium was optimized which permitted an efficient shoot regeneration from leaf discs. Transgenic shoots were selected on rooting medium containing 100 mg/l kanamycin sulfate. Integration of the csr1-1 gene into genomic DNA of kanamycin resistant chicory plants was confirmed by Southern blot hybridizations. Analysis of the selfed progenies (S1 and S2) of two independent transformed clones showed that kanamycin and chlorsulfuron resistances were inherited as dominant Mendelian traits. The method described here for producing transformed plants will allow new opportunities for chicory breeding.     

Ethylmethanesulfonate saturation mutagenesis in Arabidopsis to determine frequency of herbicide resistance

Plant resistance to glyphosate has been reported far less frequently than resistance to sulfonylurea and imidazolinone herbicides. However, these studies tend to be anecdotal, without side by side comparisons for a single species or natural isolate. In this study, we tested the frequencies of resistance of three herbicides in a controlled ethylmethanesulfonate (EMS) saturation mutagenesis experiment, allowing a direct comparison of the frequencies at which resistant mutant plants arise. The 100% growth inhibition dose rates of glyphosate, chlorsulfuron (a sulfonylurea herbicide), and imazethapyr (an imidazolinone herbicide) were determined for Arabidopsis. Populations of EMS-mutagenized M(2) seedlings were sprayed with twice the 100% growth inhibition dose of glyphosate, chlorsulfuron, or imazethapyr, and herbicide-resistant mutants were identified. Although there were no glyphosate-resistant mutants among M(2) progeny of 125,000 Columbia and 125,000 Landsberg erecta M(1) lines, chlorsulfuron resistance and imazethapyr resistance each appeared at frequencies of 3.2 x 10(-5). Given the observed frequency of herbicide resistance mutations, we calculate that there are at least 700 mutations in each EMS-mutagenized Arabidopsis line and that fewer than 50,000 M(1) lines are needed to have a 95% chance of finding a mutation in any given G:C base pair in the genome. As part of this study, two previously unreported Arabidopsis mutations conferring resistance to imidazolinone herbicides, csr1-5 (Ala-122-Thr) and csr1-6 (Ala-205-Val), were discovered. Neither of these mutations caused enhanced resistance to chlorsulfuron in Arabidopsis.     

Transformation of Medicago by Agrobacterium mediated gene transfer

Shoot segments of Medicago varia genotype A2 were co-cultivated with Agrobacterium tumefaciens strain bo42 carrying pGA471, a plasmid coding for the kanamycin resistant determinant as transferable positive selection marker in plant cells (An et al., 1985). Resistant plants were regenerated at high frequency from green calli developed on inoculated stem cuttings under kanamycin selection. DNA-DNA hybridization analysis showed the presence of the structural gene of the kanamycin resistant determinant in total DNA isolated from several independent transformants. All data presented clearly demonstrate the transfer, stable maintenance and functional expression of the kanamycin resistance marker in Medicago varia cells which retain their morphogenic property.Abbreviations Km kanamycin - KmR kanamycin resistant - Cb carbenicillin - 2,4-D 2,4 dichlorophenoxyacetic acid - BA 6-benzyladenine - T-DNA transferred DNA into plants     

Direct gene transfer to protoplasts of Arabidopsis thaliana

We performed a series of direct gene transfer experiments with protoplasts of Arabidopsis thaliana ecotype Zürich. An average of more than 100 transformants were selected per 10⁶6 treated protoplasts. Stable transformation was confirmed by integration of the marker gene into high molecular weight DNA and by its genetic transmission to subsequent offspring generations.Abbreviations ATF absolute transformation frequency - PEG polyethyleneglycol - hpt hygromycin phosphotransferase gene - CTAB N-Cetyl-N,N,N-trimethyl-ammonium bromide - MES 2-(N-morpholino)ethanesulfonic acid     

<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of flax with a mutant tubulin gene responsible for resistance to dinitroaniline herbicides

Agrobacterium tumefaciens was used to transform fiber flax with the pBITUBA8 plasmid carrying the mutant α-tubulin gene imparting resistance to dinitroaniline herbicides and the nptII selective marker gene imparting resistance to kanamycin. The transformants were selected in parallel on media containing kanamycin and trifluralin (a dinitroaniline herbicide). The transgenic nature of the resultant regenerants resistant to dinitroaniline herbicides was confirmed by means of Southern blotting and polymerase chain reaction (PCR) analysis using specific probes for the ntpII gene and the gene of α-tubulin.     

In solium Selection for Arabidopsis Transformants Resistant to Kanamycin

The kanamycin resistance encoded by the neomycin phosphotransferase II gene (nptII) of transposon Tn5 is widely used in higher plant genetic transformation. The general process of plant transformation using nptII as a selectable marker gene, however, requires selecting kanamycin-resistant plants or tissues in culture. Even with the recently developed vacuum infiltration method for Arabidopsis transformation, the plant culture steps are not completely eliminated in selection for kanamycin-resistant transformants. The herbicide resistance genes, such as bar, which provides resistance to bialaphos, allow Arabidopsis transformation to become a true non-culture procedure. In this report, we assessed the feasibility of applying kanamycin as a spray in selecting for kanamycin-resistant Arabidopsis transformants grown in soil. We find that kanamycin-resistant transformants were effectively selected by spraying soil-grown Arabidopsis seedlings.     

Efficient octopine Ti plasmid-derived vectors for Agrobacterium-mediated gene transfer to plants.

A two-component cloning system to transfer foreign DNA into plants was derived from the octopine Ti plasmid pTiB6S3. pGV2260 is a non-oncogenic Ti plasmid from which the T-region is deleted and substituted by pBR322. pGV831 is a streptomycin-resistant pBR325 derivative that contains a kanamycin resistance marker gene for plant cells and a site for cloning foreign genes between the 25-bp border sequences of the octopine T-region. Conjugative transfer of pGV831 derivatives to Agrobacterium and cointegration by homologous recombination between the pBR322 sequences present on pGV831 and pGV2260, can be obtained in a single step. Strains carrying the resulting cointegrated plasmids transfer and integrate T-DNA into the genome of tobacco protoplasts, and transformed tobacco calli are readily selected as resistant to kanamycin. Intact plants containing the entire DNA region between the T-DNA borders have been regenerated from such clones. In view of these properties we present pGV831 and its derivatives as vectors for efficient integration of foreign genes into plants.