Transformation ofStreptomyces avermitilis by plasmid DNA

Summary Polyethylene glycol (PEG) efficiently mediated the transformation ofStreptomyces avermitilis protoplasts by plasmid DNA to yield 10⁷ transformants per g of plasmid DNA. Under conditios in which the maximum transformation frequency was observed, the cotransformation frequency exceeded 10%. The number of transformants increased linearly with the amount of DNA and number ofS. avermitilis protoplasts. Relaxed and supercoiled, but not linear DNA transformed protoplasts efficiently. Dimethyl sulfoxide (DMSO)-mediated transformation of protoplasts was 1000-fold less efficient. PEG and, less efficiently, DMSO also mediated the transformation of whole cells ofS. avermitilis by DNA.     

Efficient transient expression and transformation of PEG-mediated gene uptake into mesophyll protoplasts of pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.)

PEG-mediated transformation was used for gene delivery and evaluation of various parameters affecting the transient expression of a gene for ß-glucuronidase (gus) in mesophyll protoplasts of Capsicum annuum. Transient expression was found to be dependent on PEG concentration and exposure time of plasmid DNA to protoplasts as well as the amount of plasmid DNA. Maximum GUS activity was obtained when protoplasts were applied to 40% concentration and molecular weight was 6,000 of PEG solution with 30 min of exposure time. Protoplasts of pepper were transformed with a vector, pCAMBIA::Ac, which contained a pCAMBIA1302 T-DNA vector carrying a maize transposable element, Ac (activator), a selection marker HPT (hygromycin phosphotransferase), and a GFP-coding region driven by the 35S promoter in the presence of PEG. Approximately 30% of the protoplasts expressed GFP. Visibly transformed colonies were obtained from protoplasts after 2 months of culture and GFP was expressed. Southern hybridization confirmed the presence of Ac in the pepper genome.     

Factors affecting PEG-mediated stable transformation of maize protoplasts

Factors influencing the frequency of stable transformation and co-transformation of maize protoplasts utilizing a polyethylene glycol (PEG) mediated DNA uptake procedure have been investigated. Protoplast plating conditions, pre-treatment buffer composition, PEG concentration, and DNA concentration were all found to be important. Carrier DNA was not beneficial when transforming with circular plasmid DNA. The effect of linearizing plasmid DNA was inconsistent across experiments, and may be dependent on the presence of carrier DNA. Functional co-transformation of an unlinked marker gene (hygromycin phosphotransferase) was increased by increasing the ratio of nonselected:selected DNA, and varied from 39% at a 11 ratio to 65% at a 1001 ratio. Under optimum conditions, up to 300 transformed calli were recovered per million input protoplasts. The protocol is simple, inexpensive, and effective, and is useful for studies in maize requiring large numbers of stably transformed or co-transformed cell lines.Abbreviations PEG polyethylene glycol - BMS Black Mexican Sweetcorn - MS salts of Murashige and Skoog (1962) culture medium - MaCa 0.2M mannitol, 80mM calcium chloride - MaMg 0.4M mannitol, 15mM magnesium chloride, 0.1% MES, pH 5.6 - CM conditioned medium - SE standard error of the mean     

Effect of repeated DNA sequences on direct gene transfer in protoplasts of Nicotiana plumbaginifolia

Summary Highly repeated nuclear DNA sequences from leaves of Nicotiana plumbaginifolia were cloned in pBR322 and tested for their effect on direct gene transfer in protoplasts of the same organism. Protoplasts were prepared from suspension cultures and were incubated in the presence of the plasmid pHP23 carrying the kanamycin resistance gene APH(3)II and in the presence of the plasmids carrying the cloned sequence. DNA uptake was induced by a polyethyleneglycol (PEG) treatment. Out of the 22 tested clones, 3 significantly stimulated the frequency of appearance of transformed colonies. DNA was extracted from some of the kanamycin-resistant calli obtained by co-transformations. Dot-blots have shown that the stimulatory effect on transformation frequency is often accompanied by a consistent increase in integrated genes sequences.     

Characterization of chromosome and plasmid transformation in Bacillus subtilis using gently lysed protoplasts

Competent cells of Bacillus subtilis were transformed with DNA from gently lysed protoplasts. Significant linkages among markers separated by distances of approximately 2.3% of the total chromosome were found, which have not been detected for conventional transformation. In comparison to previous reports, enhanced plasmid transformation was observed [4.0×10⁷ transformants per g DNA (one transformant per 5×10⁴ molecules added)], when competent cells were transformed with DNA from lysed protoplasts harboring pUB110.     

Fate of plasmid DNA in transformation of Bacillus subtilis protoplasts

Summary Polyethylene glycol-treated protoplasts of B. subtilis can be transformed by plasmid DNA at very high frequencies (Chang and Cohen 1979). From analysis of plasmid mediated transformation of transformation-deficient mutants it appeared that mutants, reduced in the transformation by plasmid DNA in the competent state, were plasmid transformation-proficient when transformed as protoplasts. By means of CsCl-gradient centrifugation of re-extracted plasmid DNA it could be demonstrated that plasmid DNA enters the protoplasts in the double-stranded form. In addition, sucrose gradient centrifugation of the re-extracted plasmid DNA showed that the entered DNA is predominantly present as covalently closed circular DNA. The efficiency of plasmid transformation in protoplasts was found to be close to one (each plasmid molecule having entered into the protoplasts gives rise to a transformed cell). This is in good agreement with the observation that little, if any, damage is done to this DNA during or after entry into protoplasts.     

Effect of various irradiation treatments of plant protoplasts on the transformation rates after direct gene transfer

Summary In P. hybrida and B. nigra an enhancement of transformation rates (direct gene transfer) of about six to seven-fold was obtained after irradiation of protoplasts with 12.5 Gy (X-ray). The effect of protoplast irradiation was similar in experiments where protoplasts were irradiated 1h before transformation (X-ray/DNA) or 1h after completion of the transformation procedure (DNA/X-ray). Increased X-ray doses up to 62.5 Gy resulted in further enhancement of percentages of transformed colonies, indicating a correlation between relative transformation frequencies (RTF) and the doses applied. Estimation of degradation rates of plasmid sequences in plant protoplasts yielded a reduction of plasmid concentration to 50% 8–12 h after transformation. In 1-day-old protoplasts, the level of plasmid fragments dropped to 0%–10% compared to 1h after transformation. The results demonstrate that the integration rates of plasmid sequences into the plant genome may in part be governed by DNA repair mechanisms. This could be an explanation for the observed genotypic dependence of transformation rates in different plant species and plant genotypes. Gene copy number reconstructions revealed enhanced integration rates of plasmid sequences in transformed colonies derived from irradiated protoplasts.     

Homologous recombination between plasmid DNA molecules in maize protoplasts

Summary The requirements for homologous recombination between plasmid DNA molecules have been studied using the PEG (polyethylene glycol)-mediated transformation system of maize (Zea mays L.) protoplasts coupled with the transient expression assay for -glucuronidase (GUS). Two plasmids were introduced into maize protoplasts; one plasmid (pB×26) contained a genomic clone of the Adh1 maize gene; the other plasmid (piGUS) was a promoterless construction containing part of intron A of the Adhl gene fused to the gusA coding sequence. Thus, the two vectors shared an effective homologous region consisting of a 459 by (Hindlll—PvuII) fragment of the yAdh1 intron A sequence. An active gusA fusion gene would result upon homologous recombination between the plasmids within the intron A sequence, and indeed GUS activity was observed in extracts following co-transformation of maize protoplasts with the two plasmids. The presence of recombinant DNA molecules in protoplast DNA isolated 1 day after co-transformation was verified using polymerase chain reactions (PCR) and Southern blots. For efficient homologous recombination, both plasmids had to be linearized. The recombination reaction was induced by restriction of the plasmid molecules either inside the effective homologous region or at the borders of the intron sequence. However, the presence of even small, terminal, nonhomologous sequences at the 3 end of the pB×26 fragment inhibited the recombination reaction. Also, both ends of the linearized piGUS DNA molecules were involved in the recombination reaction. The results revealed some features of homologous recombination reactions occurring in plant cells which cannot be accommodated by mechanisms postulated for similar reactions in animal system and in lower eukaryotes.     

Factors affecting transient gene expression in electroporated Glycine max protoplasts

Electroporation was used to evaluate parameters affecting transient gene expression in Glycine max protoplasts. Protoplast viability and reporter enzyme activity for chloramphenicol acetyl transferase (CAT) and ß-glucuronidase (GUS) depended on the field strength employed. Maximum CAT and GUS activity was obtained when a field strength of 500 V/cm at 1000 F and a protoplast concentration of 1–3 × 10⁶/ml was used. Transformation efficiencies up to approximately 1.6% GUS positive protoplasts were obtained. Transient gene expression increased with increasing plasmid DNA concentration and with the time after electroporation, reaching a maximum after 48 hr. Addition of polyethylene glycol at 5.6% and heat shock (5 rain at 45 °C) given to the protoplasts before adding DNA further enhanced the transformation efficiency. Under the optimized experimental conditions, CAT and GUS activity increased simultaneously, thereby indicating that the increased expression is caused by DNA uptake by more cells rather than greater DNA uptake by the same cells. Our results demonstrate that both GUS and CAT can be used as efficient screenable markers for transformation studies in soybean.Abbreviations CAT chloramphenicol acetyl transferase - GUS ß-glucuronidase - PEG polyethylene glycol     

Electric field mediated stable transformation of carrot protoplasts with naked DNA

We have developed an electroporation procedure for the transformation of carrot protoplasts with Ti-plasmid DNA from Agrobacterium tumefaciens. The uptake of pTiC58 into carrot protoplasts was mediated by high voltage electrical pulses at field strengths from 0.5 to 3.8 kV/cm. Protoplast regeneration, somatic embryogenesis and plantlet regeneration were unaffected by the electroporation conditions selected for DNA uptake. Uptake of plasmid pTiC58 resulted in hormone independent regeneration of carrot protoplasts. Transformed somatic embryos were detected in carrot cultures 45 days after electroporation. The transformed somatic embryos developed into teratomas which synthesized nopaline. Hybridization was obtained between a labeled T-DNA fragment from pTiC58 and DNA fragments from 4 month old teratomas regenerated from electro-transformed protoplasts. Based on the number of somatic embryos regenerated after electro-transformation, a frequency of 1.6×10² transformants/10⁴ somatic embryos/g pTiC58 DNA was obtained.Abbreviations PEG polyethylene glycol - 2,4-D 2,4-dichlorophenoxyacetic acid - MES morpholinoethane sulfonic acid - DMSO dimethyl sulfoxide - HSV Herpes Simplex virus - TK thymidine kinase     

Optimization of polyethylene glycol mediated transient gene expression in pea protoplasts

We have investigated factors influencing polyethylene glycol mediated DNA uptake and ß-glucuronidase expression in pea (Pisum sativum L.) protoplasts. It was found that for optimal \-glucuronidase expression the molecular weight and concentration of polyethylene glycol should be 4000 and 20%, respectively. The amount of plasmid DNA should be 25 g per 5×10⁵ protoplasts in each treatment, and the concentration of Mg²⁺ in the transformation buffer should be 15 mM. The optimized protocol was applicable to all four pea cultivars tested.Abbreviations FDA fluorescein diacetate - GUS ß-glucuronidase - MU 4-methylumbelliferone - MUG 4-methyl umbelliferyl glucuronide - MW molecular weight - PEG polyethylene glycol - X-Gluc 5-bromo-4-chloro-3-indolyl glucuronide     

Efficient regeneration of Brassica oleracea hypocotyl protoplasts and high frequency genetic transformation by direct DNA uptake

Summary Efficient regeneration (80%) and high frequency genetic transformation (10–33%) were achieved by culturing protoplasts isolated from hypocotyl tissues of six day old Brassica oleracea seedlings and by subjecting these protoplasts to PEG mediated direct plasmid uptake. Three different plasmid vectors carrying marker genes for resistance to methotrexate (dhfr), hygromycin (hpt) and phosphinotricin (bar) were constructed and used for transformation. Large number of normal, fertile transformants were obtained with vectors carrying hpt and bar genes. No transformants could be regenerated for resistance to methotrexate as it severely suppressed shoot differentiation.Abbreviations bar/PAT bialaphos resistance gene/phosphinotricin acetyltransferase - 2,4-D 2,4-di-chlorophenoxyacetic acid - dhfr/DHPR dihydrofolate reductase gene/enzyme - gus/GUS -glucuronidase gene/enzyme - hpt/HPT hygromycin phosphotransferase gene/enzyme - Kn kinetin - PEG polyethylene glycol - RH relative humidity     

Regeneration of transformed shoots from electroporated soybean (Glycine max (L.) Merr.) protoplasts

Stable transformation of soybean (Glycine max (L.) Merr.) protoplasts isolated from immature cotyledons was achieved following electroporation with plasmid DNA carrying chimeric genes encoding ß-glucuronidase (GUS) and hygromycin phosphotransferase (HPT) under the control of the cauliflower mosaic virus (CaMV) 35S promoter. Transformed colonies were stringently selected by growing 15-day-old protoplast-derived cells in the presence of 40 g/ml of hygromycin-B for 6 weeks. Over 93% of the resistant cells and colonies exhibited GUS activity, indicating that the two marker genes borne on a single plasmid were co-introduced and co-expressed at a very high freguency. This transformation procedure reproducibly yields transformants at frequencies of 2.9–6.8 × 10^–4 (based on the number of protoplasts electroporated) or 23.0% (based on the number of control microcalli formed) counted after 6 weeks of selection. After repeated subculturing on regeneration medium, shoots were induced from 8.0% of the transformed calli. Southern hybridization confirmed the presence of both the GUS and hygromycin genes in the transformed calli and shoots.     

High frequency transformation of Bacillus subtilis protoplasts by plasmid DNA.

Summary A highly efficient method for transformation of Bacillus subtilis by plasmid DNA is reported. The procedure, which involves polyethylene glycolinduced DNA uptake by protoplasts and subsequent regeneration of the bacterial cell wall, yields up to 80% transformants with an efficiency of 4x10⁷ transformants per g of supercoiled DNA. Plasmids constructed by in vitro ligation or endonuclease-generated fragments of linear plasmid DNA can also transform PEG-treated protoplasts, but at a lower frequency.     

Beauveria bassiana protoplast regeneration and transformation using electroporation

Summary Regeneration of Beauveria bassiana GK2016 protoplasts demonstrated three phases: (1) enlargement, (2) formation of a chain of budding cells, and (3) development of a true germ tube from the original protoplast. Regeneration frequencies of up to 80% were obtained when using the stabilizer ammonium sulphate. Using electroporation, protoplasts were transformed to methyl 1,2-benzimidazole carbamate (MBC) resistance with the Neurospora crassa MBC-resistant -tubulin gene. A transformation efficiency of one of three transformants per 5 g vector DNA was obtained. The MBC phenotype was stable and transformants grew in the presence of 5 g MBC/ml. Southern DNA-DNA hybridization analysis demonstrated that integration of the vector into the chromosomal DNA had occurred. Correspondence to: G. G. Khachatourians     

Transfer of the broad-host-range IncQ plasmid RSF1010 and other plasmid vectors to the Gram-positive methylotroph Brevibacterium methylicum by electrotransformation

Gram-positive facultative methylotrophic coryneform bacterium Brevibacterium methylicum was efficiently transformed with various plasmids using electroporation of intact cells. In addition to the plasmid vectors pEC71 and pZ6-1 constructed on the basis of cryptic plasmids from coryneform bacteria, broad-host-range plasmids pLS5 (derivative of plasmid pMV158 from Streptococcus agalactiae) and RSF1010 belonging to the incompatibility group IncQ from Gram-negative bacteria were found to be present as autonomous structurally unchanged DNA molecules in B. methylicum transformants. With the exception of pZ6-1, all these plasmids were stably maintained in B. methylicum cells grown under non-selective conditions. When plasmid DNAs isolated from B. methylicum were used, the highest efficiency of transformation (10⁵ transformants/g DNA) was achieved. Correspondence to: J. Nevera     

Release of transforming plasmid and chromosomal DNA from two cultured soil bacteria

The release of chromosomal and plasmid DNA from Acinetobacter calcoaceticus and Bacillus subtilis cultivated in minimal medium and broth over a period of 50 h was monitored and related to growth phase, autolysis, DNase production and natural competence. The released DNAs were biologically active in natural transformation. In addition, the circular integrity of a released B. subtilis shuttle vector (pHV14) was demonstrated by artificial transformation of Escherichia coli. In cultures of both strains high molecular weight DNA accumulated, particularly during the stationary and death phase (up to 30 g ml^-1). Generally, despite the presence in culture fluids of DNase activity (and of an intracellular enzyme, catalase, indicating some cell lysis) there was high transforming activity of chromsomal and plasmid DNA even 40 h after the cultures reached the stationary phase. In cultures of B. subtilis in minimal medium a presumably active release of intact plasmids and chromsomal DNA occurred during the competence phase. The release of biologically functional DNA during essentially all growth phases of a gram-positive and a gram-negative member of soil bacteria might facilitate horizontal gene transfer by transformation in natural habitats.     

Direct Gene Transfer in Psophocarpus tetragonolobus Resistance to Kanamycin

Epicotyl-derived protoplasts of Psophocarpus tetragonolobuswere isolated and regenerated to plants. These protoplasts weretransformed to kanamycin resistance following uptake of plasmid(pABDl or pHP23) DNA in combination with PEG treatment. Protoplast-derivedtransformed colonies were selected on kanamycin (75 mg l^–1).The transformed calli expressed NPT II activity and also exhibitedthe presence of the plasmid gene integrated into the plant genome.However, none of the transformed clones showed regenerationof shoot buds. Psophocarpus tetragonolobus, winged bean, naked DNA transformation, protoplast culture, regenerated plants     

Transformation of tobacco protoplasts with DNA entrapped in pH-sensitive liposomes

A system for the transformation of tobacco mesophyll protoplasts using pH-sensitive liposomes was developed. Plasmid DNA (plGVneo23) encoding the NPT-II gene for kanamycin resistance was entrapped in pH-sensitive liposomes composed of dioleolphosphatidylethanolamine, cholesterol and oleic acid. These liposomes release their contents at low pH and are capable of delivering their contents into the cytoplasm of protoplasts. Kanamycin-resistant colonies were reproducibly recovered from transformed protoplasts at an average frequency of 1.62×10^-4 at pH 7.5. Plants regenerated from transformed cell lines were normal in appearance and were fertile. NPT-II activity was detected in leaf extracts of transformed, kanamycin-resistant plants and the presence of NPT-II DNA in the tobacco genome was shown by Southern blots. Analysis of self-pollinations and reciprocal crosses to non-transformed plants indicated that kanamycin resistance segregated as a dominant nuclear marker. Co-transformation of protoplasts with liposomes containing two selectable markers indicated that co-transformation occurred with a frequency of approximately 23%.Abbreviations DOPE dioleoylphosphatidylethanolamine - DOPC dioleoylphosphatidylcholine - Chol cholesterol - OA oleic acid - PEG polyethylene glycol 6000 - NAA -napthaleneacetic acid - BAP 6-benzylaminopurine