Transformation of pBR322-Derived Plasmids in Phytopathogenic Pseudomonas avenae and Enhanced Transformation in Its Proline-Auxotrophic Mutant

Efficient transformation of pBR322 and its derived plasmids, which have been widely used as cloning vectors in Escherichia coli, was observed in Pseudomonas avenae (K1), the pathogen of leaf blight disease in cereals. Moreover, there was a 10- to 50-fold transformation efficiency (1.3–3.0 × 10⁶/μg DNA) in the proline-auxotrophic mutant (Pr47), whose virulence to rice seedlings decreased. Similar enhancement of the frequency of transfer by mobilization of RSF1010, a broad host range plasmid, was observed in the recipient Pr47 strain in mating with donor Pseudomonas syringae. The plasmids harbored in these strains were maintained very stably after subcultures. Thus, a highly efficient transformation system with pBR322-derived plasmids used as a vector and Pseudomonas as a host bacterium was developed. Received: 13 July 1996 / Accepted: 26 August 1996     

Control of replication of the broad host range plasmid RSF1010: The incompatibility determinant consists of directly repeated DNA sequences

Summary A 500 bp DNA fragment located in the vicinity of the origin of replication of plasmid RSF1010 was cloned into the plasmid vector pBR322 and shown to exhibit incompatibility against parental RSF1010. The rightmost region of this fragment contains three perfect 20 pb direct repeats and a fourth half-repeat of 11 bp, as shown by DNA sequencing. Delection of the four repeats from the cloned fragment resulted in complete loss of incompatibility whereas partial deletion of the repeated sequence resulted in a concurrent decrease in the expression of incompatibility. We conclude that the incompatibility determinant of RSF1010 is defined by the four repeats and also that the incompatibility expressed is not very strong, since the presence of about 1.5 times as many copies of the repeated sequence as are normally in a cell does not cause a total switch off of RSF1010 replication, but only a 40% reduction in the rate of replication.Abbreviations kb kilobase pairs - bp base pairs - Km^r, Tc^r resistance to kanamycin and tetracycline, respectively     

Development of genetic markers in cyanobacteria and stability of genetically marked strains in soil

Reporter marker GUS (-glucuronidase gene from Escherichia coli) and luc operon from the American firefly were introduced into cyanobacteria and the stability of these markers in soil was examined. To transfer the integrational vector into cyanobacteria, the genomic DNA library of Synechocystis sp. or Anabaena cylindrica maintained in pBR 322, pCY 100 and pCY 101 were transformed with HB 101 containing pRL 528 and selected for Cm^r and Amp^r. These clones of HB 101 containing pRL 528 and the vectors carrying different cyanobacterial chromosomal DNA fragments were used for triparental mating with HB 101 [pRK 2013/pRK 2073] and cyanobacteria. The frequency of transconjugants for integrational vectors was between 2.1 × 10^–5 and 4.0 × 10^–4. The transfer frequency of RSF 1010 based vectors (pDSK 519 and pCY 106) was 1.0–4.5 × 10^–4 in Synechocystis sp. whereas A. cylindrica failed to maintain these vectors. Low frequency transfer (2.0–2.3 × 10^–6) of RK 2 based vectors pVK 100 and pCY 104 was observed in A. cylindrica but these were unable to replicate in Synechocystis sp. The vectors in general were stable at least by 74.9% for 60 days of incubation in BG-11 medium. The markers were less stable in A. cylindrica (74.9–84.2%) compared to Synechocystis sp. (80.1–88.8%) at 60 days of incubation. Integrational vectors were almost 85% stable in both the strains. The RK 2 derivative of pCY 104 was less stable in A. cylindrica (74.9–77.3%) than the RSF 1010-based vector pCY 106 in Synechocystis sp. (80.1–81.0%). A maximum of 64.7% of the markers were lost in soil. The chromosomal markers through integrational vectors were found to be highly stable and 68.2–72.7% of these markers were retained in cyanobacteria at 60 days of incubation. Plasmid markers were less stable, with a loss of 64.7–48.7% at the end of the experiment. In A. cylindrica 58–65% of the RK 2 vector was lost whereas in Synechocystis sp. 49–61% of RSF 1010 was lost at 60 days of incubation.     

The transformation of legionellae by plasmid DNA

For the first time the possibility of the genetic transformation of L. pneumophila and L. bozemanii strains with the use of purified DNA of plasmids pUC19, pUC4K, pSC101 and RSF1010-pBR322 was shown. The frequency of transformation varied from 5.2 x 10(-6) to 5.8 x 10(-7), depending on the strain used in the experiment and plasmid DNA. In some of the transformants obtained in this investigation plasmid DNA whose molecular weight was similar to that of the plasmid DNA used for transformation was detected. The relatively stable preservation of plasmids pSC101 and RSF1010 in Legionella strains and the loss of plasmids pUC19, pUC4K and pBR322 in 80% of transformants during storage were shown.     

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.     

Regulation of replication of plasmid pBR322 in amino acid-starved Escherichia coli strains

The stringent response causes inhibition of replication of plasmid pBR322 in amino acid-starved Escherichia coli cells whereas in relaxed mutants the replication of this plasmid proceeds for several hours. On the basis of density shift experiments and pulse-labelling experiments we showed that most of the pBR322 molecules begin replication during the relaxed response and the rate of plasmid DNA synthesis in unstarved and isoleucine-starved relA ^–] bacteria is similar. We found that the Rom function plays a key role in the stringent control of plasmid pBR322 replication, as insertional inactivation of the rom gene causes amplification of pBR322rom ^– in both relA ^– and relA ⁺ strains during amino acid starvation. Moreover, pUC19, which is a pBR322-derived plasmid lacking the rom gene, behaves like pBR322rom ^–, whereas introduction of the rom gene into the pUC19 replicon drives it into the pBR322 mode of replication in amino acid-starved bacteria. A model for the regulation of pBR322 plasmid DNA replication by Rom protein in amino acid-starved Escherichia coli strains is proposed.     

Plasmid-Mediated Gene Transfer Between Insect-Resident Bacteria, Enterobacter cloacae, and Plant-Epiphytic Bacteria, Erwinia herbicola, in Guts of Silkworm Larvae

Five strains of Enterobacter cloacae isolated from several species of plants and insects were able to grow in the guts of silkworm larvae. A much larger population of Ent. cloacae strains was detected in the insect guts and feces collected 3 and 6 days than in samples collected 1 day after feeding artificial diets contaminating these bacteria. Furthermore, insect-origin strains of Ent. cloacae were mated with a donor strain, epiphytic Erwinia herbicola, harboring RSF1010 and pBPW1::Tn7 plasmids in the insect guts by introducing these bacteria through separate artificial diets administered at different times. A number of transconjugants, Ent. cloacae strains which had acquired RSF1010 plasmid, were detected from guts and fecal samples at transfer frequencies of 10⁻² to 10⁻³ per recipient. Thus, gene transfer between epiphytic Er. herbicola and insect-resident Ent. cloacae strains in the insect guts was confirmed. These findings may provide significant information about the role of ′′in insecta mating' in the evolution of these bacteria. Received: 16 June 1998 / Accepted: 7 July 1998     

High-frequency transduction of pBR322 by cytosine-substituted T4 bacteriophage: evidence for encapsulation and transfer of head-to-tail plasmid concatemers

Transduction of plasmid pBR322 by cytosine-substituted T4 phages has been studied. Three T4 phage mutants which substitute cytosine for all of hydroxymethylcytosine residues in the DNA, were shown to transduce pBR322 at frequencies of 2 × 10^?2 to 4 × 10^?3 transductants per singly infected cell. Also, three T4 phage strains which partially substitute cytosine for hydroxymethylcytosine, transduced pBR322 at frequencies of 2 × 10^?3 to 2 × 10^?4. The transduction frequencies of pBR322 we attained are at least 10-fold higher than those reported by G. G. Wilson, K. Young, and G. J. Edlin (1979, Nature (London)280, 80–82). We found that multiplicity of infection in preparation of the transducing phage is the most important factor affecting the frequency of pBR322 transduction. When a lysate made at a multiplicity of infection ranging from 0.5 to 0.05 was used as the donor phage, transduction frequency of pBR322 was 10- to 40-fold higher than that of high-m.o.i. lysate. The transduction frequency was not affected by either restriction systems or amber suppressors of the recipient cells. However, no pBR322-containing transductant was obtained when either recA or polA mutants were used as the recipients. DNA from T4dC phage containing pBR322-transducing particles was analyzed on agarose gel electrophoresis after cleavage with restriction endonucleases. It was suggested that the pBR322 DNA in the T4dC phage particles exists as head-to-tail concatemers.     

The DNA gyrase of Escherichia coli participates in the formation of a spontaneous deletion by recA-independent recombination in vivo

Summary A system for detecting a spontaneous deletion in Escherichia coli was developed and the role of DNA gyrase in deletion formation was studied. A derivative of plac5, AM36, was isolated in which whole pBR322 DNA was inserted in the lacZ gene and 227 by of the lac gene duplicated at both sides of the pBR322 DNA. E. coli lac ^–strains lysogenized by AM36 had a Lac^– phenotype and segregated Lac^– revertants. Sequence analyses showed that the revertant was formed by a deletion that eliminated the inserted pBR322 DNA and one copy of the duplicated segments. The frequency of lac ^– revertant formation was independent of recA function, was increased by oxolinic acid, an inhibitor of DNA gyrase, but was not increased in a lysogen of a nalidixic acid-resistant derivative. The reversion frequencies of temperature sensitive mutants of gyrA gene are 10 to 100 times lower than that of the wild-type strain. These results indicate that the DNA gyrase of E. coli participated in the in vivo deletion formation resulting from the direct repeats.     

Characterization of DNA uptake by the cyanobacterium Anacystis nidulans

Summary The binding and uptake of nick-translated ³²P-labeled pBR322 by Anacystis nidulans 6301 have been characterized. Both processes were considerably enhanced in permeaplasts compared to cells. The breakdown of labeled DNA was not correlated with binding or uptake by permeaplasts or cells. Uptake of DNA by permeaplasts was unaffected by: Mg²⁺ or Ca²⁺, light, or inhibitors of photophosphorylation such as valinomycin or gramicidin D in the presence or absence of NH₄Cl. ATP at 2.5–10 mM inhibited both binding and uptake of labeled DNA by permeaplasts of A. nidulans whereas the ATP analog adenyl-5-yl imido-diphosphate was non-inhibitory in the same concentration range. In contrast to transformation of A. nidulans 6301 cells to ampicillin-resistance by pBR322, transformation to kanamycin-resistance by the plasmid pHUB4 was considerably enhanced in the dark. The transformation efficiency for permeaplasts by the plasmid pCH1 was 59% and 8% in the dark and light, respectively, whereas transformation of permeaplasts by pBR322 at an efficiency of 16% was absolutely light-dependent.     

Stabilization by the Mini-F Fragment of a pBR322 Derivative Bearing the Tryptophan Operon in Escherichia coli

In an Escherichia coli K-12 strain (trpA trpE tnd) cultured in LB broth without selective pressure, a pBR322 derivative bearing the E. coli tryptophan Operon (pBR322-trp) was rapidly lost: after 27 cell-number doublings, only 7% cells retained both tryptophan prototrophy (Trp⁺) and ampicillin resistance (Ap^r), and 17% were Ap^r but Trp^?. Insertion of the mini-F DNA from F factor into this plasmid effectively suppressed both the plasmid loss and the discoordinate loss of Trp⁺: the percentage of Trp^? cells per cell-number doubling was decreased more than 100-fold. Partial derepression of the trp operon due to 3-indole acrylic acid further decreased the stability of the pBR322-trp but not that of the mini-F-inserted pBR322-trp.     

A stable derivative of pBR322 conferring increased tetracycline resistance and increased sensitivity to fusaric acid

A hybrid trp-tet promoter was formed on pBR322 by insertion of a segment containing part of the trp promoter at the ClaI site. The product plasmid, pDR42, conferred resistance to higher concentrations of tetracycline than pBR322. Cells bearing pDR42 were sensitive to lower concentrations of fusaric acid than were those bearing pBR322. Since the difference in growth on fusaric acid between the E. coli RR1 alone and the strain with pDR42 is greater than is the case with pBR322, an improved selection of tetracycline-sensitive (Tc^s) colonies out of a background of pDR42 specified tetracycline-resistant (Tc^r) colonies was observed.     

Construction of a recombinant plasmid composed of B. subtilis leucine genes and a B. subtilis (natto) plasmid: its use as cloning vehicle in B. subtilis 168.

Summary Recombinant plasmids composed of Bacillus subtilis 168 leucine genes and a B. subtilis (natto) plasmid have been constructed in a recombination deficient (recE4) mutant of Bacillus subtilis 168. The process involved EcoRI fragmentation and ligation of a B. subtilis (natto) plasmid and a composite plasmid RSF2124-B · leu in which B. subtilis 168 leucine genes are linked to the R-factor RSF2124. A constructed plasmid (pLS102) was found to be composed of an EcoRI fragment derived from the vector plasmid and two tandemly repeated EcoRI fragments carrying the leucine genes. A derivative plasmid (pLS101 or pLS103) consisting of one molecule each of the EcoRI fragments was obtained by in vivo intramolecular recombination between the repeated leucine gene fragments in pLS102. pLS103 was cleaved once with BamNI, SmaI and HpaI. Insertion of foreign DNA (Escherichia coli plasmid pBR322) into the BamNI site inactivated leuA but not the leuC function which thus can serve as selective marker if the plasmid is used as vector in molecular cloning. The penicillin resistance carried in pBR322 was not functionally expressed in B. subtilis cells. By partial digestion of pLS103 with HindIII followed by ligation with T4-induced ligase, pLS107 was obtained which contained only one EcoRI site. However, insertion of exogenous DNA (pBR322) into this EcoRI site inactivated both leuA and leuC functions.     

Escherichia coli growth and plasmid copy numbers in continuous cultivations

Summary AnEscherichia coli K-12 strain harbouring either the plasmid pBR322, or the recombinant plasmid pKTH1220, a 14 kb derivative of pBR322, or no plasmid was grown in a chemostat. The cultivations were continued for 300–400 bacterial generations.E. coli hosts harbouring pBR322 or no plasmid grew in a similar way, but the growth of the host containing the big recombinant plasmid was slower. The plasmid copy numbers increased up to 2–3 fold as the dilution rate was increased from 0 to ca. 1 h^–1. After this point the increase in dilution rate seemed to induce a rapid decrease in the plasmid copy numbers. High copy numbers could be maintained using dilution rates resulting in good productivity of the cell mass.     

Stabilization of anE. coli plasmid by a mini-F fragment of DNA

Summary In anEscherichia coli K-12 strain (trpA trpE tnaA) cultured in LB broth without selective pressure, a pBR322 derivative containing the gene for tryptophan synthase (pBR322-trpBA) was found to be unstable. After 70 cell-number doublings, only 50% of the host cells retained the gene for ampicillin resistance (Ap^r). Insertion of the mini-F fragment of F factor DNA into this plasmid could effectively reduce the plasmid loss. Partial derepression of the tryptophan promotor-operator by 3-indopleacrylic acid further decreased the stability of the pBR322-trpBA but not that of the mini-F inserted plasmid (pBR322F-trpBA) The vector pBR322F-trpBA could be maintained at high copy number in the culture after 100 generations of growth; the culture was able to overproduce tryptophan synthase in the presence of 3-indoleacrylic acid.l-Tryptophan was produced from indole andl-serine using andE. coli host transformed with.pBR322F-trpBA DNA. After 8 h of incubation, the expression level was approximately 180 g/l.     

Mechanism of pBR322 transduction mediated by cytosine-substituting T4 bacteriophage

Summary A cytosine-substitution type mutant of bacteriophage T4 (T4dC phage) has been shown to mediate the transfer of plasmid pBR322. The transduction frequency was around 10^-2 per singly infected cell at low multiplicity of infection. The transductants contained either a monomer or multimers of pBR322. The transducing capacity of T4dC phage was resistant to methylmethanesulfonate treatment. The results of Southern blotting experiments have indicated that the pBR322 DNA exists as head-to-tail concatemers in the transducing particles. The mechanism of transfer of pBR322 mediated by T4dC phages is discussed     

Cloning and expression in Escherichia coli of the Clostridium thermoaceticum gene encoding thermostable formyltetrahydrofolate synthetase

Formyltetrahydrofolate synthetase (FTHFS) (EC 6.3.4.3), a thermostable protein of four identical subunits from Clostridium thermoaceticum was cloned into Escherichia coli SK1592. The clone (CRL47) contained a 9.5 kb EcoRI fragment of C. thermoaceticum DNA ligated into pBR322. It produced catalytically active, thermostable FTHFS, that was not found in E. coli SK1592 containing native pBR322. The identity of the expressed enzyme was confirmed by specific binding of rabbit polyclonal anti-FTHFS serum produced against C. thermoaceticum FTHFS. The specific activities (mol·min^-1·mg^-1) of FTHFS in cell free extracts of CRL47 were 28–89 when assayed at 50°C and pH8. This was from 3–10-fold higher than in C. thermoaceticum extracts. FTHFS was purified to homogeneity from CRL47. The purified enzyme behaved during electrophoresis and gel chromatography and it had similar specific activity and thermostability as the enzyme purified from C. thermoaceticum.Abbreviations FTHFS formyltetrahydrofolate synthetase - kb kilobase - H₄-folate tetrahydrofolate - SDS sodium dodecyl sulfate A preliminary account of this work was presented at the annual meeting of the American Society for Microbiology, Atlanta, GA, 1987 (C. R. Lovell, A. Przybyla and L. G. Ljungdahl, Abstr. Annu. Meet. Am. Soc. Microbiol. 1987, K126, p. 223).