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.     

Genetic transformation of Clostridium botulinum hall a by electroporation

Summary A method was developed for the introduction of plasmids into Clostridium botulinum by electroporation. A 4.4 kb plasmid vector, pGK12, which contains genes for resistance to erythromycin (Em^r) and chloramphenicol (Cm^r) was electroporated into C. botulinum type A (Hall A). The highest transformation efficiency was obtained using midlog phase cells, 10% PEG 8000 as the electroporation solution, and 2.5 kV field strength. The transformation efficiency was highest (10³ transformants/g of DNA) when 1 g of plasmid DNA and 4 × 10⁸ CFU/ml of recipient cells were used. Plasmid DNA recovered from the transformants was indistinguishable from that introduced on the basis of restriction enzyme digestion and agarose gel electrophoresis.     

Electroporation of Bradyrhizobium japonicum

Summary Electroporation offers a fast, efficient and reproducible way to introduce DNA into bacteria. We have successfully used this technique to transform two commercially important strains of Bradyrhizobium japonicum, the nitrogen-fixing soybean symbiont. Initially, electroporation conditions were optimized using plasmid DNA which had been prepared from the same B. japonicum strain into which the{imDNA was to b}e transformed. Efficiencies of 10⁵-10⁶ transformants/g DNA were obtained for strains USDA 110 and 61A152 with ready-to-use frozen cells. Successful electroporation of B. japonicum with plasmid DNA prepared from Escherichia coli varied with the E. coli strain from which the plasmid was purified. The highest transformation efficiencies (10⁴ transformants/g DNA) were obtained using DNA prepared from a dcm ^– dam ^– strain of E. coli. This suggests that routine isolation of DNA from an E. coli strain incapable of DNA modification should help in increasing transformation efficiencies for other strains of bacteria where DNA restriction appears to be a significant obstacle to successful transformation. We have also monitored the rate of spontaneous mutation in electroporated cells and saw no significant difference in the frequency of streptomycin resistance for electroporated cells compared to control cells.     

Development of an electro-transformation system for Escherichia coli DH10B

Summary Escherichia coli can be transformed to high efficiencies by subjecting a mixture of cells and DNA to a brief but intense electrical field. Factors that affect the transformation efficiency of E.coli strain DH10B were analysed. Optimal conditions gave an efficiency of 10⁸ to 10⁹ transformants/g DNA with E.coli strains K803 and DH10B, and plasmids pB1221.23 and pBSK+. The use of ligated DNA resulted in 10⁶ transformants/g DNA. Detailed protocols for these systems are given.     

Transformation of the filamentous fungus Gibberella fujikuroi using the Aspergillus niger niaD gene encoding nitrate reductase

Summary A transformation system for Gibberella fujikuroi based on the Aspergillus niger nitrate reductase gene (niaD) was developed. A strain (designated SG140) carrying a non-reverting niaD mutation (niaD11) was generated by screening mutagenised cells for non-growth on nitrate as sole nitrogen source. Transformation frequencies of 1–2 transformants per g DNA were observed when strain SG140 was transformed to nitrate utilisation. Southern blot analyses of niaD⁺ transformants showed that the vector DNA sequences were integrated into the chromosomal DNA. The results demonstrate that the A. niger niaD gene is expressed in G. fujikuroi.     

Cloning and expression of Candida albicans ADE2 and proteinase genes on a replicative plasmid in C. albicans and in Saccharomyces cerevisiae.

Summary A plasmid vector (denoted pRC2312) was constructed, which replicates autonomously in Escherichia coli, Saccharomyces cerevisiae and Candida albicans. It contains LEU2, URA3 and an autonomously replicating sequence (ARS) from C. albicans for selection and replication in yeasts, and bla (ampicillin resistance) and ori for selection and replication in E. coli. S. cerevisiae AH22 (Leu^–) was transformed by pRC2312 to Leu^– at a frequency of 1.41 × 10⁵ colonies per g DNA. Transformation of C. albicans SGY-243 (Ura-) to Ura⁺ with pRC2312 resulted in smaller transformant colonies at a frequency of 5.42 × 10³ per g DNA where the plasmid replicated autonomously in transformed cells, and larger transformant colonies at a frequency of 32 per g DNA, in which plasmid integrated into the genome. Plasmid copy number in yeasts was determined by a DNA hybridization method and was estimated to be 15±3 per haploid genome in S. cerevisiae and 2–3 per genome in C. albicans replicative transformants. Multiple tandem integration occurred in integrative transformants and copy number of the integrated sequence was estimated to be 7–12 per diploid genome. The C. albicans ADE2 gene was ligated into plasmid pRC2312 and the construct transformed Ade^– strains of both C. albicans and S. cerevisiae to Ade⁺. The vector pRC2312 was also used to clone a fragment of C. albicans genomic DNA containing an aspartic proteinase gene. C. albicans transformants harboring this plasmid showed a two-fold increase in aspartic proteinase activity. However S. cerevisiae transformants showed no such increase in proteinase activity, suggesting the gene was not expressed in S. cerevisiae.     

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.     

Biolistic transformation of tobacco and maize suspension cells using bacterial cells as microprojectiles

Summary We have used both Escherichia coli cells and Agrobacterium tumefaciens cells as microprojectiles to deliver DNA into suspension-cultured tobacco (Nicotiana tabacum L. line NT1) cells using a helium powered biolistic device. In addition, E. coli cells were used as microprojectiles for the transformation of suspension-cultured maize (Zea mays cv. Black Mexican Sweet) cells. Pretreating the bacterial cells with phenol at a concentration of 1.0%, and combining the bacterial cells with tungsten particles increased the rates of transformation. In N. tabacum, we obtained hundreds of transient transformants per bombardment, but were unable to recover any stable transformants. In Z. mays we obtained thousands of transient transformants and an average of six stable transformants per bombardment. This difference is discussed.Abbreviations BMS Black Mexican Sweet - RPM revolutions per minute - uidA -glucuronidase gene - GUS -glucuronidase protein - LB Luria-Bertani broth - OD600 optical density at 600 nm - psi pounds per square inch - Ap^r ampicillin resistance - Kn^r kanamycinresistance     

Targeted integrative transformation of Candida tropicalis by electroporation

Summary A method for integrative transformation of the diploid yeast Candida tropicalis by electroporation has been developed. By linearizing the transforming plasmid DNA containing the URA3 gene prior to electroporation of recipient cells, its integration was targeted to a specific locus in the genome, resulting in single or multiple tandem integrations. The optimal electroporation conditions for this yeast were established and include an electric pulse of 2.25 kV/cm for a duration of 50 ms. Using these conditions, Ura⁺ transformants were readily obtained at a high frequency (45 transformants/g DNA) as the result of targeted integration of the URA3 gene containing plasmid DNA at the chromosomal ura3 locus. The number of transformants resulting from this procedure is comparable to that achieved with a recently reported spheroplast transformation procedure for C. tropicalis; in addition, it offers the advantages of being simple, rapid and reproducible.     

Biological assay of prokaryotic genes in mouse cells following DNA mediated transformation

Summary Genes coding for leucine biosynthesis in Bacillus subtilis were introduced into mouse LTK^- cells by co-transformation with thymidine kinase⁺ (tk) DNA. Genomic DNA from the tk⁺ transformants was used to transform competent cultures of different B. subtilis leucine auxotrophs. Each auxotroph was transformed to prototrophy at a similar frequency and the number of leucine gene sequences per transformant genome as deduced by the B. subtilis bioassay strongly correlated with the number estimated by hybridization methods. Tk^- subclones were obtained by plating the transformants in 5-bromodeoxyuridine. One subclone still contained the non-selected leucine gene sequences and could transform auxotrophs of B. subtilis. No deletions or rearrangements in the linkage relationships of the leucine genes occurred in the LTK^- cells that inhibited transformation of B. subtilis.     

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     

Transformation of spheroplasts and protoplasts of Corynebacterium glutamicum

Summary Spheroplasts were prepared from Corynebacterium glutamicum ATCC13032 by growing cells in the presence of glycine followed by digestion with lysozyme. Using pUL330 a spheroplast transformation system was established routinely yielding 10³ to 10⁴ transformants per g of plasmid DNA. Spheroplasts were converted into protoplasts after incubation with the lytic enzyme achromopeptidase in the presence of additional lysozyme. Protoplasts prepared by this method regenerated at efficiencies of 10 to 30%. A protoplast transformation system was established routinely yielding 10⁵ to 10⁶ transformants per g of plasmid DNA. The Escherichia coli Brevibacterium lactofermentum shuttle vector pUL62 prepared from E. coli could be introduced into spheroplasts of C. glutamicum after heat treatment at 48 to 49°C for 10 min.     

Development of a homologous transformation system for Aspergillus niger based on the pyrG gene

Summary The development of a homologous transformation system for Aspergillus niger is described. The system is based on the use of an orotidine-5-phosphate decarboxylase deficient mutant (pyrG) and a vector, pAB4-1, which contains the functional A. niger pyrG gene as a selection marker. Transformation of the A. niger pyrG mutant with pAB4-1 resulted in the appearance of stable Pyr⁺ transformants at a frequency of 40 transformants per g of DNA. In 90% of these transformants integration had occurred at the resident pyrG locus, resulting either in replacement of the mutant allele by the wild-type allele (60%) or in insertion of one or two copies of the vector (40%). The A. niger pyrG mutant could also be transformed with the vector pDJB2 containing the pyr4 gene of Neurospora crassa, at a frequency of 2 transformants per g of DNA. Integration at the resident pyrG locus was not found with this vector. The vector pAB4-1 is also capable of transforming an Aspergillus nidulans pyrG mutant to Pyr⁺. The pyrG transformation system was used for the introduction of a non-selectable gene into A. niger.     

Improved transformation of Pseudomonas putida KT2440 by electroporation

Summary An electric field-mediated transformation (i.e. electroporation) was performed to determine optimal conditions for P. putida transformation. The effects of culture age, electroporation buffer composition, electric field strength, pulse time constant and DNA concentration on transformation efficiency were examined. When plasmid DNA of 8 to 11 kb in size was used with an electroporation buffer containing 1 mM HEPES (pH 7.0), maximum transformation efficiency of 1.0 × 10⁷ transformants/g DNA was obtained at field strength of 12 kV/cm with pulse time of 2.5 millisecond. A linear increase in the number of transformants was observed as DNA concentration was increased over 4 orders of magnitude. A linear relationship was observed between growth phase and transformation efficiency up to OD₆₀₀ = 2.0. This reliable and simple method should be useful for introduction of plasmid DNA into intact P. putida cells.     

Electrotransformation of intact cells ofBrevibacterium flavum MJ-233

Summary Electroporation allowed transformation of intact cells ofBrevibacterium flavum MJ-233. The two plasmids used for electroporation were pCRY2 (6.3 kilobases) and pCRY3 (8.2 kilobases). Both plasmids contain the chloramphenicol-resistance gene and the autonomous replication origin inB. flavum MJ-233. The efficiency of electrotransformation was optimal with cells harvested at the middle log phase of growth, and was imporved by the addition of 1.0U/ml of penicillin G to the culture medium. The optimum yield of transformants per g DNA was 5×10⁴ when the cell suspension was pulsed at a cell density of 1×10¹⁰/ml and at a DNA amount of 1.0g.     

Plasmid mediated metal and antibiotic resistance in marinePseudomonas

Pseudomonas sp isolated from the Bay of Bengal (Madras coast) contained a single large plasmid (pMR1) of 146 kb. Plasmid curing was not successful with mitomycin C, sodium dodecyl sulfate, acridine orange, nalidixic acid or heat. Transfer of mercury resistance from marinePseudomonas toEscherichia coli occurred during mixed culture incubation in liquid broth at 10^–4 to 10^–5 ml^–1. However, transconjugants lacked the plasmid pMR1 and lost their ability to resist mercury. Transformation of pMR1 intoE. coli competent cells was successful; however, the efficiency of transformation (1.49×10² Hg^r transformants g^–1 pMR1 DNA) was low.E. coli transformants containing the plasmid pMR1 conferred inducible resistance to mercury, arsenic and cadmium compounds similar to the parental strain, but with increased expression. The mercury resistant transformants exhibited mercury volatilization activity. A correlation existed between metal and antibiotic resistance in the plasmid pMR1.     

Recombination-dependent recircularization of linearized pBR322 plasmid DNA following transformation of Escherichia coli

Summary Monomeric pBR322 DNA that had been linearized at its unique SalI site transformed wild-type Escherichia coli with 10² to 10³ times less efficiency than CCC plasmid DNA. Dose-response experiments indicated that a single linear plasmid molecule was sufficient to produce a transformant. Transformation with linearized pBR322 DNA was reduced 10 to 40 fold in recA ^–, recBC ^– or recF ^– backgrounds. In contrast, transformation with CCC DNA was unaffected by the rec status of the host. Transformation with linear pBR322 DNA was increased 3-fold in a DNA ligase-overproducing (lop11) mutant and decreased to a similar degree by transient inactivation of ligase in a ligts7 mutant.A proportion (ranging from about 9% in the wild-type to 42% in a recBC, lop11 mutant) of the transformants obtained with SalI-linearized pBR322 monomeric DNA contained deleted plasmids. Deletion rates were generally higher in rec ^– strains. Dephosphorylation of the termini on linear DNA or the creation of blunt-ended pBR322 molecules (by end-filling the SalI 5 protrusions or by cleavage with PvuII) decreased the transformation frequencywhilst increasing the deletion rate.Linear pBR322 dimeric DNA gave transformation frequencies in recA ⁺ and recA ^– strains that were reduced only 3 to 7 fold respectively relative to frequencies obtained with dimeric CCC DNA. Furthermore, in contrast to transformation with linear monomeric DNA, deletions were not observed.We propose that the majority of transformants arise, not by simple intracellular reannealing and ligation of the two cohesive SelI-termini of a linear molecule, but by intramolecular recombination. Deleted plasmids could be generated therefore during recyclization caused by recombination between short directly repeated sequences within a pBR322 monomer. We suggest that perfectly recircularized monomeric pBR322 molecules, which are found in the majority of transformants, arise primarily by intramolecular recombinational resolution of head-to-tail linear pBR322 dimers. Such linear oligomeric forms are created during preparation of linearized plasmid DNA by annealing of the SalI cohesive termini and constitute a variable proportion of the total molecules present.     

Transformation of Bacillus megaterium by electroporation

Summary Plasmidic DNA was introduced into intact cells of Bacillus megaterium by electroporation. The procedure showed an efficiency of 10³ transformants g^–1 DNA.     

High-frequency transformation ofLactobacillus casei with plasmid pHY300PLK by electroporation

To optimize the conditions for transformation ofLactobacillus casei ATCC 27092 cells with plasmid pHY300PLK, a shuttle vector forEscherichia coli andBacillus subtilis, by electroporation, we investigated the effects of the electrical parameters (voltage and resistance), the concentration of plasmid DNA, the cell age and density, the electroporation buffer, and other factors. Under optimal conditions of 2.0 kV, 100 ohm, and 25F, a transformation efficiency as high as 1.4×10⁷ transformants per g of plasmid DNA was obtained, with a survival rate of about 50%.L. casei YIT 9021, one of the PL-1 phage mutants of the ATCC 27092 strain, was also transformed with the same plasmid under optimal conditions. The transformants were confirmed to harbor the same intact plasmid molecules by agarose gel electrophoretic analysis.     

Optimized transformation by electroporation ofLactobacillus plantarum strains with plasmid vectors

Summary Whole cell transformation ofLactobacillus plantarum CCM 1904 by electroporation was optimized. Pulse duration and electric field strength were shown to be important parameters: the optimum conditions were 12.5 kV/cm, a time-constant of 10 ms for an exponential decay waveform and 6.7 kV/cm applied during 2.5 ms for a square waveform. Transformation efficiency was increased if cells were cultivated on medium containing sorbitol and harvested during their early exponential growth phase: 8 × 10^–4 transformants/g pGK12 DNA per viable cell were obtained, with a survival rate of 10%–30% Cryotreatment by several freeze-and-thaw cycles decreased transformant yields. Transformation efficiency with different plasmids was studied and plasmid pGK12 was found to transformL. plantarum the most efficiently. Transformation by electroporation ofL. plantarum is strain dependent. The best results were obtained withL. plantarum NCIB 7220, giving 5 × 10⁶ transformants/gmg plasmid pGK12 DNA.