Expression and stability of a recombinant plasmid in Zymomonas mobilis and Escherichia coli

A recombinant plasmid was constructed by ligating EcoRI digests of the plasmid cloning vector pBR325 and pZMO2, one of the natural plasmids of Zymomonas mobilis ATCC 10988. This vector, named pDS212 (total size 7.9 kb), which was able to transform Escherichia coli efficiently, was also transferred to Z. mobilis hosts by mobilization during conjugation using the helper plasmid pRK2013. pDS212 was inherited stably in both E. coli and Z. mobilis hosts and could be recovered intact from them. Markers of pBR325 and pRK2013 were also transferred in Z. mobilis but at very low frequencies. Neither pBR325 nor pRK2013 could be recovered intact from the Z. mobilis hosts. It is proposed that expression and stability of pDS212 in Z. mobilis is due to the origin of replication of pZMO2 that it carries, and that it may be used for developing a gene transfer system in Z. mobilis.     

Immunity to repeated transposition of the insertion sequence IS21

The ability of pBR325 derivatives carrying a copy of IS21-element to accept the second copy of this element from plasmid pRP19.6, a temperature-sensitive for replication mutant of RPI containing the duplicated IS21 was studied. It was shown that the frequency of IS21 transposition into plasmids pBR32S::IS21 differing by localization IS21 was lower by two orders of magnitude as compared to that of pBR325. The restriction endonuclease analysis revealed that the insertion of the second copy of IS21 resulted in the formation of pBR325 derivatives carrying the tandem repeated copies of IS21. It was also shown that the plasmids pBR325::IS21 were capable of increasing the frequency of pRP19.6 insertion into the bacterial chromosome from 3-9 to 200-300 times depending on IS21 localization. On the basis of the results obtained and literature data the possible mechanism of the transposition immunity is discussed.     

Cloning and delimiting one chloroplast DNA replicative origin of Chlamydomonas.

The EcoR1 restriction fragments containing D-loops which marked the replication origin of chloroplast DNA were identified in two different species of Chlamydomonas. Each fragment was cloned in the E. coli plasmid pBR325. The cloned fragments were compared by restriction endonuclease analyses and by heteroduplex analyses in the electron microscope. The relative position of the D-loop regions and the homologous regions between the 2 fragments was determined. The D-loops were located within one short homologous region of 0. 42kb in length between the 2 cloned restriction fragments. The homologous region was subcloned in pBR322. Closed circular plasmid DNAs containing the short homologous region showed preferred denaturation in the D-loop region under physiological salt concentration which suggested that D-loop region was AT rich. Sequence divergence was detected at both ends of the D-loop region. Southern blot analyses indicated the presence of species-specific repetitive sequences within the divergent regions.     

Klebsiella pneumoniae origin of replication (oriC) is not active in Caulobacter crescentus, Pseudomonas putida, and Rhodobacter sphaeroides.

A DNA fragment carrying genes encoding the conjugal transfer system of the broad host range plasmid RK2 was inserted into a plasmid carrying the chromosomal origin of replication (oriC) from Klebsiella pneumoniae. The resulting plasmid, pEON1, was readily transferred between gram-negative bacteria and carried two potential origins of replication: oriC and the replication origin from pBR322 (oriPBR). Although pEON1 could be transferred to Caulobacter crescentus, Pseudomonas putida, and Rhodobacter sphaeroides, pEON1 was not maintained in these strains. However, an oriC-containing plasmid was maintained in these nonenteric bacteria when an RK2 origin of replication was present on the plasmid. Thus, the inability of pEON1 to be established in a nonenteric bacterium represents a failure of oriC to function as an origin of replication rather than a toxic effect of oriC. The initiation potential of the chromosomal origin of replication from K. pneumoniae appears to be realized only in enteric bacteria.     

The plasmid cloning vector pBR325 contains a 482 base-pair-long inverted duplication

The plasmid pBR325 is a cloning vector constructed in vitro by addition of the chloramphenicol resistance (Cmr) gene of an IS1-flanked transposon to pBR322 (Bolivar, 1978). It is a 5 995 bp plasmid carrying no sequence originating from IS1. DNA-sequence data suggest that its Cmr segment was derived from a Cm transposon longer than Tn9. The plasmid pBR325 carries between the Cmr and Tcr genes a 482 bp sequence which duplicates, in the opposite orientation, a section pf pBR322 located at the end of the tcr gene. The same structure was found in pBR328, a deletion derivative of pBR325 (Soberon et al., 1980). The possible implications of this inverted duplication on cloning experiments are discussed.     

Escherichia coli relA strains as hosts for amplification of pBR322 plasmid DNA

Abstract We have proposed that guanosine tetraphosphate produced in Escherichia coli cells subjected to an isoleucine limitation inhibits pBR322 DNA replication [1]. In E. coli relA which cannot synthesize guanosine tetraphosphate (ppGpp) upon amino acid limitation pBR322 DNA is amplified after arginine starvation. The yield of plasmid DNA amplified either by chloramphenicol (Cm) or by arginine limitation is compared. The plasmid yield per cell is equal in amino acid-starved cells and in cells treated with Cm. To increase the plasmid content per ml of cell suspension the growth medium was supplemented with increasing amounts of nutrients. Plasmid DNA can be isolated in large quantities by this procedure. This simple method can be used for the enrichment of pBR325 DNA which cannot be amplified by Cm treatment. Our results indicate that E. coli relA strains might be suitable hosts for the amplification of pBR322 and related plasmids in E. coli .     

Constructing a test system for the identification of plague microbe based on genetic probes]

DNA probes for detection of the plague agent Yersinia pestis were made on a basis of its three typical extrachromosomal replicons. The recombinant plasmid pBS2 including pBR327 vector and SalGI-BspRI fragment of the plasmid pFra was constructed. The above fragment is connected with synthesis of Y. pestis capsular antigen and it is a 400 bp species-specific DNA probe called F1 which is suitable for identification of Y. pestis species that bears the 60 mdal plasmid. The DNA probes called P1 was made on a basis of the plasmid pPst; it is the 460 BglII-BamHI fragment of the fibrinolysin-coagulase gene suitable for species-specific detection of Y. pestis species that bears the 60 mdal plasmid. The P1 fragment was cloned into the pAT153 vector and the constructed recombinant plasmid was called pEK7. The recombinant plasmid pCL1, including the pBR325 vector and the 6th BamHI fragment of Y. pestis EV plasmid pCad was constructed. The above fragment includes the replication origin of the pCad and it is hybridized to the pCad-bearing strains of Y. pestis and Y. tuberculosis only. Thus, it may be a basis for a bi-species-specific DNA probe making. These three recombinant plasmids are considered as a test-system for detection of both typical and atypical strains of Y. pestis.     

Inhibition of DNA replication by berenil in plasmids containing Poly(dA)poly(dT) sequences

The effect of berenil on plasmid DNA replication was studied on pBR322-derived plasmids containing poly(dA)poly(dT) sequences. In comparison to the parental plasmid pBR322, plasmid pKH47 harboring 100 bp of poly(dA)poly(dT) at the PvuII site showed a decrease in plasmid yield in the presence of berenil. This effect was also observed in pVL26, a related plasmid in which the location of the poly(dA)poly(dT) region had been shifted to the EcoRV site in pBR322. [(3)H]Thymidine incorporation experiments indicated that DNA synthesis may be affected in these plasmids in the presence of the drug. Bromodeoxyuridine incorporation experiments coupled to Cs(2)SO(4) equilibrium density gradient centrifugation indicated that the lower plasmid yield was due to an inhibition of DNA replication by berenil. We have also found that berenil induces DNA degradation in plasmids containing the homopolymer. Our studies strongly suggest that the effect of berenil on plasmid replication and DNA stability results from its binding to the poly(dA)poly(dT) region present in these plasmids. Moreover, we have found a correlation between the position of the poly(dA)poly(dT) region and this inhibitory effect. Thus, plasmid pKH47, containing the poly(dA)poly(dT) region most proximal to the origin of pBR322 replication, was most severely affected.     

Initiation of lagging-strand synthesis for pBR322 plasmid DNA replication in vitro is dependent on primosomal protein i encoded by dnaT

The role of the primosome assembly and protein n' recognition site in replication of pBR322 plasmid was examined. The following evidence indicates that the primosome is involved in lagging-strand synthesis of pBR322 plasmid replication in vitro. Early replicative intermediates with newly synthesized leading strand, approximately 1 kilobase pair long, immediately downstream of the replication origin accumulate in products synthesized in extracts from a dnaT strain that lacks primosomal protein i or in wild-type extracts supplemented with anti-protein i antibody. These intermediates are converted efficiently into full-length DNA by addition of purified protein i. Consistent with the previously proposed role of the primosome (Arai, K. and Kornberg, A. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 69-73), an n' site on the lagging strand, but not on the leading strand, is required for efficient replication of the plasmid in vitro. Plasmids lacking an n' site on the lagging strand replicate only to a limited extent in vitro and early replicative intermediates carrying nascent leading strands are accumulated, although a portion of the intermediates complete replication to yield full-length DNA. The latter reaction is completely inhibited by addition of anti-protein i antibody. Insertion of the n' site of phage phi X174 into pBR322 plasmids lacking lagging-strand n' sites restores the replicative ability of the mutant plasmid comparable to that of the wild-type plasmid. These results indicate that protein i is essential for lagging-strand synthesis of pBR322 plasmid in vitro and that it may play an important role in the priming events as a part of either an n' site-dependent primosome or an n' site-independent, as yet unidentified, priming complex.     

Increased stability of pBR322-related plasmids in Escherichia coli W3101 grown in carrageenan gel beads

Abstract The stability and the copy number of pBR322, pBR325 and pBR328 were studied during continous cultures of free and immobilized E. coli W3101 without selective pressure. In the free-cell system, it was found that pBR328 and pBR325-free E. coli cells appeared after a lag period. They rapidly overgrew the cultures and the plasmid copy number subsequently declined. On the other hand, an increase in the proportion of pBR322- carrying cells during a free continuous culture was observed. This increase correlated with that of plasmid copy number. By contrast, in the immobilized- cell system, plasmid free segregants were not detected in all the cases even after 250 generations. We have also shown that plasmid copy number remained constant and phenomena such as fluctuations or genetic modifications which occured after long term growth of bacteria in a free continuous culture could be avoided throughout cell immobilization.     

Plasmid cloning vectors resistant to ampicillin and tetracycline which can replicate in both E. coli and Haemophilus cells

We have constructed two plasmid vectors, pHCV5 and pHVTl, which will replicate both in Haemophilus and in Escherichia coli. Both contain the ampicillin-resistance gene and the replication origin from a Haemophilus plasmid, pRSF0885. Both also contain the pBR322 origin and therefore can be amplified in E. coli by chloramphenicol treatment. The plasmid pHCV5 contains the tetracycline-resistance gene of pBR322, and pHVT1 contains the analogous region from the transposon Tn10.     

The replication origin of Azotobacter vinelandii

The putative replication origin of Azotobacter vinelandii was cloned as an autonomously replicating fragment after ligation to an antibiotic resistance cartridge. The resulting plasmids could be isolated and labelled by Southern hybridisation with the antibiotic resistance cartridge as probe and also visualised by electron microscopy. These plasmids integrated into the chromosome after a few generations, even in the recA mutant of A. vinelandii. The integrated copy of the plasmid was re-isolated from the chromosome and the DNA and its subfragments were cloned in the plasmid vector pBR322. A 200-bp DNA fragment was sufficient to allow the replication of pBR322 in an Escherichia coli polA strain. Electron microscopic analysis of this plasmid showed that replication initiated mostly within the A. vinelandii DNA fragment. The nucleotide sequence of the putative replication origin and its flanking regions was determined. In the sequence of the 200-bp fragment many of the distinctive features found in other replication origins are lacking. A greater variation from the consensus DnaA binding sequence was observed in A. vinelandii. Direct sequencing of the relevant genomic fragment was also carried after amplifying it from A. vinelandii chromosomal DNA by PCR. This confirmed that no rearrangements had taken place while the cloned fragment was resident in E. coli. It was shown by hybridisation that the 200-bp chromosomal origin fragment of A. vinelandii was present in three other field strains of Azotobacter spp.     

Cloning vectors that yield high levels of single-stranded DNA for rapid DNA sequencing

We have constructed chimeric plasmid vectors with the origin and intergenic region from M13 phage cloned into the PvuII ( pZ145 ) and AhaIII ( pZ150 , pZ152 ) sites of pBR322. In the absence of M13 phage, these plasmids replicate like any other ColE1-derived plasmid and confer both ampicillin and tetracycline resistance (Amp, Tet). Upon infection with M13 phage, the viral origin present on the plasmids permits phage-directed plasmid replication and results in high yields of single-stranded (ss) plasmid DNA in M13-like particles. This ssDNA, which represents only one of the plasmid strands, is useful as a substrate for rapid DNA sequence determination by the dideoxy sequencing method described by Sanger et al. (1977). Since these plasmids contain an intact pBR322, the intergenic region can be transferred onto most pBR322 derivatives to yield ss plasmid DNA without affecting the recipient plasmid for further studies. We also constructed a deletion derivative of pZ145 , plasmid pZ146 , that does not exhibit interference with the growth of the M13 helper, although this plasmid is encapsidated into phage particles. This result confirms the theory that the intergenic region consists of two domains: one domain being a segment involved in phage morphogenesis and the other being a region of functional origin which interferes with M13 replication.     

A 140 base-pair DNA segment from the kanamycin resistance region of plasmid R1 acts as an origin of replication and promotes site-specific recombination

A 140 base-pair DNA segment situated just upstream of the kanamycin resistance gene of transposon Tn2350, a transposon carried by the plasmid R1, was found to act as an origin of replication and allow autonomous replication of a plasmid composed only of the segment and of the tetracycline resistance gene of pBR322. This segment also promotes site-specific recombination: when cloned in pBR322 it promotes multimer formation in a recA- strain. If two copies are cloned on the same plasmid they promote either deletion or inversion of the intervening region, depending on their orientation relative to each other. DNA gyrase seems to be involved in this process since the inversion rate, in a plasmid carrying sequences in opposite orientations, varies in different nalidixic acid-resistant strains (gyr A mutants) independently isolated.     

Inhibition of DNA synthesis at the hemimethylated pBR322 origin of replication by a cell membrane fraction.

The replication of both ColE1-type plasmids and plasmids bearing the origin of replication of the Escherichia coli chromosome (oriC) has been shown to be inhibited by hemimethylation of adenine residues within GATC sequences. In the case of oriC plasmids, this inhibition was previously shown to be mediated by the specific affinity of the hemimethylated origin DNA for an outer cell membrane fraction. Here, we suggest that a similar mechanism is operating in the case of the ColE1-like plasmid pBR322 as (i) a hemimethylated DNA fragment carrying the promoter for the RNA which primes DNA synthesis (RNAII) is specifically bound by the same membrane fraction and, (ii) the addition of the membrane fraction to a soluble assay of pBR322 replication results in preferential inhibition of initiation on the hemimethylated template. We suggest that membrane sequestration of hemimethylated origin DNA and/or associated replication genes following replication may be a common element restricting DNA replication to precise moments in the cell cycle.     

Rifampicin-induced replication of the plasmid pBR322 in Escherichia coli strains carrying dnaA mutations

The replication pattern of the plasmid pBR322 was examined in the dnaA mutants of Escherichia coli. The rate of pBR322 DNA synthesis is markedly decreased after dnaA cells are shifted to the restrictive temperature of 42 degrees C. However, addition of rifampicin (RIF) to cultures of dnaA strains incubated at 42 degrees C after a lag of 90 min results in a burst of pBR322 synthesis. This RIF-induced pBR322 replication remains dependent on DNA polymerase I activity. Efficient plasmid pBR322 replication is observed at 42 degrees C in the double mutant dnaA46cos bearing an intragenic suppressor of dnaA46. Though replication of pBR322 in dnaA46cos growing at 42 degrees C is initially sensitive to RIF plasmid synthesis is restored after 90 min incubation in the presence of the drug. RIF-induced replication of the plasmid pBR327, lacking the rriB site implicated in RIF-resistant synthesis of the L strand of ColE1-like plasmids (Nomura and Ray 1981; Zipursky and Marians 1981), was observed also in dnaA46 at 42 degrees C.     

Unidirectional replication as visualized by two-dimensional agarose gel electrophoresis

Two-dimensional (2D) agarose gel electrophoresis is progressively replacing electron microscopy as the technique of choice to map the initiation and termination sites for DNA replication. Two different versions were originally developed to analyze the replication of the yeast 2 microns plasmid. Neutral/Neutral (N/N) 2D agarose gel electrophoresis has subsequently been used to study the replication of other eukaryotic plasmids, viruses and chromosomal DNAs. In some cases, however, the results do not conform to the expected 2D gel patterns. In order to better understand this technique, we employed it to study the replication of the colE1-like plasmid, pBR322. This was the first time replicative intermediates from a unidirectionally replicated plasmid have been analyzed by means of N/N 2D agarose gel electrophoresis. The patterns obtained were significantly different from those obtained in the case of bidirectional replication. We showed that identification of a complete are corresponding to molecules containing an internal bubble is not sufficient to distinguish a symmetrically located bidirectional origin from an asymmetrically located unidirectional origin. We also showed that unidirectionally replicated fragments containing a stalled fork can produce a pattern with an inflection point. Finally, replication appeared to initiate at only some of the potential origins in each multimer of pBR322 DNA.     

Function of the N-terminal half of RepA in activation of Rts1 ori.

The RepA protein of the Rts1 plasmid, consisting of 288 amino acids, is a trans-acting protein essential for replication. A mutant repA gene, repA delta C143, carrying a deletion that removed the 143 C-terminal amino acids of RepA, could transform, but at a low frequency, an Escherichia coli polA strain, JG112, when repA delta C143 was cloned into pBR322 with Rts1 ori in the natural configuration. The transformation was less efficient without the dyad DnaA box in the ori region, and no transformation occurred at 42 degrees C, characteristic of Rts1 replication. A fusion of the 3'-terminal half of repA of the P1 plasmid to repA delta C143 yielded a pBR322 chimeric plasmid that contained Rts1 ori through hybrid (Rts1-P1) repA. This plasmid was maintained much more stably in JG112 at 37 degrees C. At 42 degrees C, however, it was quite unstable. The overproduced hybrid RepA protein showed interference with mini-Rts1 replication in trans and also exhibited an autorepressor function, although both activities were decreased. These findings suggest that the N-terminal half of the RepA molecule of Rts1 is involved in the activation of the replication origin.