Effect ofEscherichia coliIHF Mutations on Plasmid p15A Copy Number

Four isogenic strains (himAhimDdouble mutant,himAandhimDsingle mutants, and their wild type counterpart) harboringorip15A plasmid (pACYC184 or pACYC184Amp or pACYC177) show different copy numbers of that plasmid in the early stationary phase of cultivation. The copy number oforip15A plasmid increases about four times in thehimAhimDdouble (65–70 copies per cell) andhimDsingle mutant cells (50–56 copies per cell) and was almost the same inhimAmutant (17–18 copies per cell) and wild type cells (14–16 copies per cell). The results suggest that HimD can form homodimers, which are functionally competent for the regulation oforip15A plasmid copy number. Complementation experiments ofhimAhimDdouble mutant cells using plasmid carryinghimAandhimDgenes (pP_LhiphimA-5) confirm the effect of integration host factor (IHF) absence on increasing the copy number oforip15A plasmid (plasmid producing IHF complemented the defect of IHF mutant). The absence of IHF (usinghimAhimDdouble mutant as host) had no effect on the copy number of the pBR322 (oripMB1) plasmid.     

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.     

Kinetic study of pTG201 plasmid stability in Escherichia coli

Recombinant pTG201 plasmid coming from pBR322 plasmid, has been incorporated into Escherichia coli K12 to determine the influence of several culture conditions on the variation of the copy number. Continuous and batch cultures on LB medium without antibiotic selection and different oxygen tensions (21% and 100%) have been tested. The expression of pTGH201 encoded genes and the kinetics of plasmid loss differ significantly from the behaviour of pBR322 plasmid.     

Integration of repeated sequences (pBR322) in the Bacillus subtilis 168 chromosome without affecting the genome structure

The Escherichia coli plasmid pBR322 sequence (4363 bp) was integrated at the met, pro, or leuB locus of the Bacillus subtilis chromosome without duplication of the flanking chromosomal regions. The integrated pBR322 was stably maintained as part of the chromosome regardless of its orientation or location. It was found that a DNA segment as large as 17 kb cloned in pBR322 can be readily transferred to the B. subtilis chromosome by transformation. It was demonstrated that a second pBR322 sequence could be effectively introduced at different regions of the chromosome by sequential transformation using chromosomal DNA isolated from a strain that had already acquired a pBR322 sequence at a different locus. Similarly, a third pBR322 sequence could be introduced. By this method, two or three pBR322 sequences can be incorporated at unlinked loci without affecting the overall structure of the B. subtilis genome.     

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.     

The Agrobacterium rhizogenes pRi TL-DNA segment as a gene vector system for transformation of plants

Summary A plant gene transfer system was developed from the Agrobacterium rhizogenes pRi15834 TL-DNA region. Intermediate integration vectors constructed from ColE1-derived plasmids served as cloning vectors in Escherichia coli and formed cointegrates into the TL-DNA after transfer to A. rhizogenes. An A. rhizogenes strain with pBR322 plasmid sequences replacing part of the TL-DNA was also constructed. Plasmids unable to replicate in Agrobacterium can integrate into this TL-DNA by homologous recombination through pBR322 sequences. No loss of pathogenicity was observed with the strains formed after integration of intermediate vectors or strains carrying pBR322 in the TL-DNA segment. Up to 15 kb of DNA have been transferred to plant cells with these systems. The T-DNA from a binary vector was cotransformed into hairy roots which developed after transfer of the wild-type pRi T-DNA. Tested on Lotus corniculatus the TL-derived vector system transformed 90% of the developed roots and the T-DNA from the binary vector was cotransformed into 60% of the roots. Minimum copy numbers of one to five were found. Both constitutive and organ-specific plant genes were faithfully expressed after transfer to the legume L. corniculatus.     

Cloning and mapping of the genetic determinants for microcin C51 production and immunity

Microcin C51 is a small peptide antibiotic produced by Escherichia coli cells harbouring the 38 kb low copy number plasmid pC51, which codes for microcin production and immunity. The genetic determinants for microcin synthesis and immunity were cloned into the vectors pBR325, pUC19 and pACYC184. Physical and phenotypic analysis of deletion derivatives and mutant plasmids bearing insertions of transposon Tn5 showed that a DNA fragment of about 5 kb is required for microcin C51 synthesis and expression of complete immunity to microcin. Partial immunity can be provided by a 2 kb DNA fragment. Mutant plasmids were tested for their ability to complement Mic^– mutations. Results of these experiments indicate that at least three plasmid genes are required for microcin production. The host OmpR function is also necessary for microcin C51 synthesis.     

Properties of plasmids from Methylomonas clara

Three independently isolated clones of the obligate methylotrophic bacterium Methylomonas clara (ATCC 31226) were tested for their plasmid content. Strains B45-BE-2 and B45-BE-3 were shown to harbor one class of plasmid molecules each, with molecular sizes of 28 MDa (46 kb) and 10 MDa (16 kb), respectively. Strain B45-BE-1 does not contain extrachromosomal DNA. Restriction maps of plasmid pBE-2 from strain B45-BE-2 and of plasmid pBE-3 from strain B45-BE-3 were established and the smaller plasmid pBE-3 shown to be a linear deletion derivative of plasmid pBE-2. Two other deletions were characterized. When subcloned into the Escherichia coli vector pBR322, plasmid pBE-3 was unable to complement for the polymerase A dependence of the pBR322 replicon. Additional experiments indicate a general failure of the M. clara specific replicon to function in E. coli.     

Cloning of rpsO, the gene for ribosomal protein S15 of Escherichia coli

Summary The gene for Escherichia coli ribosomal protein S15 (rpsO) was cloned on the vector pBR322 from F-prime JCH55 DNA. The recombinant plasmid was transformed to Serratia marcescens cells and it was proved that E. coli S15 was synthesized and incorporated into ribosome particles in S. marcescens cells. A DNA fragment containing rpsO was also inserted into the vector pRF3, which changes its copy number depending on the growth temperature in a temperature-sensitive polA host. By use of this recombinant plasmid it was shown that the relative synthesis rate of S15 increased about twice even when the copy number of the plasmid increased more than twenty-fold.     

Linear multimer formation of plasmid DNA in Escherichia coli hopE (recD) mutants

Summary The hopE mutants of Escherichia coli, which cannot stably maintain a mini-F plasmid during cell division, have mutations in the recD gene coding for subunit D of the RecBCD enzyme (exonuclease V). A large amount of linear multimer DNA of mini-F and pBR322 plasmids accumulates in these hopE mutants. The linear multimers of plasmid DNA in the hopE (recD) mutants accumulate in sbc ⁺ genetic backgrounds and this depends on the recA ⁺ gene function. Linear plasmid multimers also accumulated in a recBC xthA triple mutant, but not an isogenic xthA mutant or an isogenic recBC mutant. The recBC xthA mutant is defective in the conjugative type of recombination. Linear plasmid multimers were not detected in the recBC strain. We propose models to account for linear multimer formation of plasmids in various mutants.     

Plasmid pAO1 of Arthrobacter oxidans encodes 6-hydroxy-D-nicotine oxidase: cloning and expression of the gene in Escherichia coli

Summary The 160 kb plasmid pAO1 from Arthrobacter oxidans (Brandsch and Decker 1984) was subcloned in Escherichia coli with the aid of the plasmid vectors pUR222 and pBR322. Screening of the recombinant clones for enzyme activity revealed that the flavoenzyme 6-hydroxy-d-nicotine oxidase (6-HDNO), one of the enzymes of the nicotine-degradative pathway in A. oxidans, is encoded on pAO1. Immunoprecipitation of ³⁵S-methionine-labelled E. coli cells with 6-HDNO-specific antiserum and expression of recombinant plasmid DNA in E. coli maxicells revealed that 6-HDNO is made as a 52,000 dalton protein, approximately 4,500 daltons larger than 6-HDNO from A. oxidans. The 6-HDNO activity was constitutively expressed in E. coli cells, possibly from an A. oxidans promoter, as shown by subcloning of the 6-HDNO gene in pBR322, using the expression vector pKK223-3 and the promoter probe vector pCB192.     

Genetic analysis of a relaxed substrate specificity aromatic ring dioxygenase, toluate 1,2-dioxygenase, encoded by TOL plasmid pWW0 of Pseudomonas putida

Summary Toluate 1,2-dioxygenase is the first enzyme of a meta-cleavage pathway for the oxidative catabolism of benzoate and substituted benzoates to Krebs cycle intermediates that is specified by TOL plasmid pWW0 of Pseudomonas putida. A collection of derivatives harbouring Tn1000 insertions and defective in toluate dioxygenase have been isolated from pPL392, a pBR322-based hybrid plasmid carrying the TOL plasmid meta-cleavage pathway operon. In parallel, a series of N-methyl-N-nitro-N-nitrosoguanidine-induced mutant plasmids defective in this enzyme activity were isolated from pNM72, a pKT231-based hybrid plasmid carrying the same operon. Pairs of mutant plasmids, consisting of one Tn1000 derivative and one nitrosoguanidine-induced derivative, were used for complementation analysis of toluate dioxygenase in Escherichia coli recA bacteria, in which the formation of 2-hydroxymuconic semialdehyde from benzoate was examined. Four cistrons for toluate 1,2-dioxygenase were thus identified. DNA fragments containing nitrosoguanidine-induced mutant cistrons plus the other meta-cleavage operon genes were cloned into pOT5, an R388-based vector, and complementation tests between different nitrosoguanidine-induced mutant cistrons were carried out in Pseudomonas putida cells, this time scoring for growth on p-toluate. This analysis also identified four cistrons. Examination of the products of these cistrons, by means of E. coli minicells containing pPL392 or its Tn1000 insertion derivatives, indicated that the first two cistrons of the operon comprise a single gene, xylX, which encodes a 57 kilodalton protein, and that the third cistron, xy/Y, encodes a 20 kilodalton protein.     

Role of DnaA protein during replication of plasmid pBR322 in Escherichia coli

Summary The in vivo role of the Escherichia coli protein DnaA in the replication of plasmid pBR322 was investigated, using a plasmid derivative carrying an inducible dnaA ⁺ gene. In LB medium without inducer, the replication of this plasmid, like that of pBR322, was inhibited by heat inactivation of chromosomal DnaA46 protein so that plasmid accumulation ceased 1 to 2 h after the temperature shift. This inhibition did not occur when the plasmid dnaA ⁺ gene was expressed in the presence of the inducer isopropyl-1-thin--d-galactopyranoside (IPTG). Inhibition was also not observed in glycerol minimal medium or in the presence of low concentrations of rifampicin or chloramphenicol. Deletion of the DnaA binding site and the primosome assembly sites (pas, rri) downstream of the replication origin did not affect the plasmid copy number during exponential growth at 30° C, or after inactivation of DnaA by a shift to 42° C in a dnaA46 host, or after oversupply of DnaA, indicating that these sites are not involved in a rate-limiting step for replication in vivo. The accumulation of the replication inhibitor, RNAI, was independent of DnaA activity, ruling out the possibility that DnaA acts as a repressor of RNAI synthesis, as has been suggested in the literature. Changes in the rate of plasmid replication in response to changes in DnaA activity (in LB medium) could be resolved into an early, rom-dependent, and a late, rom-independent component. Rom ^– plasmids show only the late effect. After heat inactivation of DnaC, plasmid replication ceased immediately. These results, together with previously published reports, suggest that DnaA plays no specific role during in vivo replication of ColE1 plasmids and that the gradual cessation of plasmid replication after heat inactivation of DnaA in LB medium results from indirect effects of the inhibition of chromosome replication and the ensuing saturation of promoters with RNA polymerase under nonpermissive growth conditions.     

An Escherichia coli strain deficient for both exonuclease V and deoxycytidine triphosphate deaminase shows enhanced sensitivity to ionizing radiation

An Escherichia coli mutant lacking deoxycytidine triphosphate deaminase (Dcd) activity and an unknown function encoded by a gene designated ior exhibits sensitivity to ionizing radiation whereas dcd mutants themselves are not sensitive. A DNA fragment from an E. coli genomic library that restores the wild type level of UV and gamma ray resistance to this mutant has been cloned in the multicopy vector pBR322. Comparison of its restriction map with the physical map of the E. coli chromosome revealed complete identity to the recBD genes. ior affects ATP-dependent exonuclease activity, suggesting that it is an allele of recB. This mutation alone does not confer sensitivity to UV and gamma radiation, indicating that lack of Dcd activity is also required for expression of radiation sensitivity.     

Isolation and Characterization of a ColE1-like Plasmid fromEnterobacter agglomeranswith a Novel Variant ofromGene

Complete nucleotide sequence of a plasmid isolated fromEnterobacter agglomeranshas been determined. The plasmid, called pPIGDM1, consists of 2495 base pairs. The analysis of its nucleotide sequence suggested that pPIGDM1 may be a ColE1-like replicon. We confirmed this hypothesis by constructing a pPIGDM1-derived plasmid harboring thecatgene (pBW4), which could be introduced intoEscherichia colicells, and demonstrating that pBW4 cannot replicate in the absence of thepolAfunction and that its copy number is significantly decreased in thepcnBmutant. Like some other ColE1-type replicons (e.g., pBR322), pPIGDM1-derived plasmids can be amplified both by chloramphenicol method and in isoleucine-starvedrelAmutants but not inrelA⁺bacteria. Inactivation of the putativeromgene by insertion of an ampicillin-resistance gene resulted in significant increase in pPIGDM1-derived plasmid copy number inE. colidespite the fact that amino acid sequence of the putative RNA I modulator (Rom) protein is only 55.7% identical to the ColE1 analog. The pPIGDM1-derivedrom-like coding sequence is also homologous to therom-like gene present in theProteus vulgarisplasmid pPvu1. We suggest to group all these gene products into a new family called ROMS (RNA one modulators). Since a pPIGDM1-derived plasmid is compatible with other ColE1-like replicons (pMB1-, p15A, RSF1030-, and CloDF13-derived) inE. coli,one may consider pPIGDM1 as a progenitor of new cloning vehicles compatible with most (if not all) of currently used plasmid vectors. Moreover, this plasmid may serve as a source of the newrom-like gene coding for a protein useful in investigation of RNA–protein interactions. A role for the pPIGDM1 plasmid in the host strain is not known.     

Interdependence and nodule specificity of cis-acting regulatory elements in the soybean leghemoglobin lbc3 and N23 gene promoters

Summary A composite plasmid comprising the mini-F and pBR322 replicons was found to inhibit cell growth of a host with conditional mutations in dnaA and rnh under restrictive conditions, where the normal initiation of replication from oriC was inactivated, but the alternative replication initiation from oriK was active. It was further shown that the composite plasrnid inhibited stable DNA replication (SDR) which occurs constitutively in cells mutant for rnh. Neither pBR322 nor mini-F alone produced these inhibitory effects. Deletion analyses revealed that the mini-F segment responsible for the inhibition of both processes was the promoter region of the sopA gene which had been cloned into a site upstream of the bla gene on pBR322 in such an orientation as to cause overexpression of bla. Inserting the promoter of the Escherichia coli lac gene into the same site had the same effect. Introduction of a deletion and a frameshift mutation into bla abolished the inhibition. Thus, the inhibition of growth and SDR appear to be due to overproduction of the bla gene product, -lactamase.     

Amplified expression of ribulose bisphosphate carboxylase/oxygenase in pBR322-transformants of Anacystis nidulans

Prior research suggested that the genes for large (L) and small (S) subunits of ribulose bisphosphate carboxylase/oxygenase (RuBisCO) are amplified in ampicillin-resistant pBR322-transformants of Anacystis nidulans 6301. We now report that chromosomal DNA from either untransformed or transformed A. nidulans cells hybridizes with nick-translated [³²P]-pBR322 at moderately high stringency. Moreover, nick-translated [³²-P]-pCS75, which is a pUC9 derivative containing a PstI insert with L and S subunit genes (for RuBisCO) from A. nidulans, hybridizes at very high stringency with restriction fragments from chromosomal DNA of untransformed and transformed cells as does the ³²P-labeled PstI fragment itself. The hybridization patterns suggest the creation of two EcoRI sites in the transformant chromosome by recombination. In pBR322-transformants the RuBisCO activity is elevated 6- to 12-fold in comparison with that of untransformed cells. In spite of the difference in RuBisCO activity, pBR322-transformants grow in the presence of ampicillin at a similar initial rate to that for wild-type cells. Growth characteristics and RuBisCO content during culture in the presence or absence of ampicillin suggest that pBR322-transformants of A. nidulans 6301 are stable. The data also collectively suggest that a given plasmid in the transformed population replicates via a pathway involving recombination between the plasmid and the chromosome.     

Isolation of a Serratia marcescens mutant which is an efficient recipient for the E. coli episome

Summary A Serratia marcescens mutant, which is an efficient recipient for the Escherichia coli episome (F' plasmid), was isolated after mutagenesis by N-methyl-N'-nitro-N-nitrosoguanidine (NTG). Episomes could be maintained in the mutant cell under conditions selective for a gene on the plasmid. This S. marcescens mutant could also be transformed with pBR 322 DNA at a frequency higher than that of the parental strain.     

Cloning and sequencing the HinfI restriction and modification genes

The HinfI restriction and modification genes were cloned on a 3.9-kb PstI fragment inserted into the PstI site of plasmid pBR322. Both genes are confined to an internal 2.3-kb BclI-AvaI subfragment. This subfragment was sequenced. Two large open reading frames (ORF's) are present. ORF1 codes for the methylase [predicted 359 amino acids (aa)] and ORF2 codes for the endonuclease (predicted 262 or 272 aa).     

Improvement of Escherichia coli strains overproducing lysine using recombinant DNA techniques

Summary Several genes of the lysine biosynthetic pathway were cloned separately on the high copy number plasmid pBR322 (Richaud et al. 1981). These hybrid plasmids were used to transform an Escherichia coli strain TOC R 21 that overproduces lysine due to mutations altering the aspartokinase reaction. The synthesis of lysine was studied in these different strains. It appears that only plasmids containing the dapA gene (encoding dihydrodipicolinate synthetase) lead to an increase in lysine production. This result allows us to identify this reaction as the limiting biosynthetic step in strain TOC R 21 and indicates that such a method of gene amplification can be used to improve strains overproducing metabolites.