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1.
An unusual structural component, supercondensed pBR322 DNA, has been found in plasmid pBR322 DNA samples isolated from a DNA topoisomerase II mutant of Escherichia coli, SD108 (topA+, gyrB225). The supercondensed pBR322 DNA moved faster than supercoiled pBR322 DNA as a homogeneous band in agrose gels when the DNA samples were analysed by electrophoresis. The mobility of the supercondensed DNA was not substantially affected by chloroquine intercalation. The supercondensed pBR322 DNA migrated as a high density "third DNA band" when the samples were subjected to caesium chloride/ethidium bromide gradient equilibrium centrifugation. The unusual pBR322 DNA visualized by electron microscopy was a globoid-shaped particle. These observations suggest that the pBR322 plasmid can assume a tertiary structure other than a supercoiled or relaxed structure. DNA topoisomerases may be involved in the supercondensation of plasmid DNA and chromosomal DNA.  相似文献   

2.
Plasmid pBR322 prepared from Escherichia coli strains carrying deletion of the DNA topoisomerase I gene (delta topA) with a compensatory mutation of the DNA gyrase gene (gyrA or gyrB) and from their TopA+ transductants was analyzed by agarose gel electrophoresis followed by electron microscopy, and compared with that from isogenic wild-type strains. It was found that about 1% of the plasmid DNA molecules was a knotted species in the topA+ gyr+ strains W3110 and DM4100, while strains DM750 (delta topA gyrA224), DM800 (delta topA gyrB225), SD275 (topA+ gyrA224) and SD108 (topA+ gyrB225) produced six to ten times as much knotted DNA as the topA+ gyr+ controls. The results suggest that the increased production of knotted pBR322 DNA is closely related to mutations of the gyrase genes.  相似文献   

3.
The reconstituted pBR322 DNA replication system has been used to identify a mechanism for the processing and segregation of daughter DNA molecules by Escherichia coli topoisomerase I (Topo I) during the terminal stages of DNA replication. At low concentrations of Topo I (sufficient to confer specificity to the replication system for DNA templates containing a ColE1-type origin of DNA replication), the major products of the replication reaction were: multigenome-length, linear, double-stranded DNA molecules (an aberrant product); multiply interlinked, catenated, supercoiled DNA dimers; and a last Cairns-type replication intermediate. Thirty- to fifty-fold higher concentrations of Topo I led to the appearance of form II and form I pBR322 DNA as the only synthetic products. A model was developed in which Topo I, bound to a single-stranded gap on the parental H strand DNA just upstream of the origin of DNA replication, catalyzed the decatenation of the intermolecular linkages between the two daughter DNA molecules that were generated by primosome-catalyzed unwinding of the residual nonreplicated parental duplex DNA in the last Cairns-type intermediate. At low concentrations of Topo I, however, the intermolecular linkages persisted and, within the context of this replication system, were not removed by DNA gyrase. In support of this model it was demonstrated that: there was a single-stranded gap between the nonreplicated parental duplex region and the 5' end of the nascent leading-strand DNA; the number of intermolecular linkages in the catenated supercoiled DNA dimers was inversely related to the concentration of Topo I; the supercoiled DNA dimers did not serve as a precursor of the final form I DNA product; and maturation of the last Cairns-type replication intermediate to form I DNA was not affected by the presence of coumermycin, a potent inhibitor of the activities of DNA gyrase.  相似文献   

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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 .  相似文献   

7.
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.  相似文献   

8.
M V Norgard  K Keem  J J Monahan 《Gene》1978,3(4):279-292
The susceptibility of E. coli strain chi1776 to transformation by pBR322 plasmid DNA was examined and optimized. Maximum transformation to tetracycline (Tc) resistance was achieved when cells were harvested from L broth at 5.0--6.0 . 10(7) cfu/ml, followed by washing twice in cold 0.1 M NaCl + 5 mM MgCl2 + 5 mM Tris, pH 7.6. Cells grown in the presence of D-cycloserine (Cyc) rather than nalidixic acid (Nx) transformed markedly better. The presence of 5 mM Mg2+ ions in washing and CaCl2 solutions stimulated transformation about 2-fold. Optimal conditions for transformation included a pH range of 7.25-7.75 and a cell-to-DNA ratio of about 1.6 . 10(8) cfu/ng plasmid DNA. The frequency of transformation was highest when cells were exposed to 100 mM CaCl2 in 250 mM KCl + 5 mM MgCl2 + 5 mM Tris, pH 7.6, before mixing with DNA. A 60 min incubation period for cell + DNA mixtures held on ice produced the maximum number of Tcr transformants. In our hands, heat shocks at 37 degrees C or 42 degrees C for various times all decreased transformation to about one-half of optimal levels. Furthermore, the recovery of transformants was best when cell + DNA mixtures were plated on precooled (4 degrees C) Tc agar plates. The efficiency of plating was optimum when only 5 microliter of cell + DNA mixture was spread per plate, suggesting that non-viable background chi1776 cells on selective medium inhibited the recovery of transformants. It was also found that the presence of linear DNA molecules in cell + DNA mixtures markedly inhibited the transformation of chi1776 by pBR322 plasmid DNA. On the basis of these findings, a new procedure for the plasmid-specific transformation of E. coli chi1776 by pBR322 plasmid DNA is proposed. The use of this technique has allowed us to attain transformation frequencies in excess of 10(7) transformants/microgram pBR322 plasmid DNA.  相似文献   

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Adaptation of Escherichia coli growth rates to the presence of pBR322   总被引:1,自引:0,他引:1  
Changes in the growth rate of Escherichia coli K12 J62-1 in response to the presence of plasmid pBR322 have been investigated. Plasmid-free and plasmid-containing strains were grown in batch culture and their maximum specific growth rate (μmax) determined. The acquisition of pBR322 by the host resulted in a decreased μmax. Following repeated subculturing of the plasmid-containing strain on selective medium, restoration in μmax was observed. The copy number and structure of the plasmid were not significantly altered during the experiment Growth rate measurements for a series of strains constructed using a combination of host cells and plas-mids with and without culture histories, indicated that the site of the adaptive mutation was located on the host chromosome rather than on the plasmid.  相似文献   

11.
S W Lee  G Edlin 《Gene》1985,39(2-3):173-180
Plasmid pBR322 and its numerous derivatives are used extensively for research and in biotechnology. The tetracycline-resistance (TcR) genes in these plasmids are expressed constitutively and cells carrying these plasmids are resistant to tetracycline. We have shown that expression of the TcR gene has an adverse effect on the reproductive fitness of plasmid-containing bacteria in both glucose-limited batch and chemostat cultures. If the TcR genes are inactivated at any one of three different restriction sites, mixed cultures of plasmid-free and plasmid-containing bacteria grow at the same rate.  相似文献   

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H Masai  K Arai 《Journal of bacteriology》1989,171(6):2975-2980
Plasmid pBR322 was unable to replicate in a temperature-sensitive dnaT1 strain at a nonpermissive temperature, whereas a pBR322-derived plasmid carrying the wild-type dnaT+ gene was able to replicate under the same conditions. In contrast to pBR322, plasmid R1 could replicate in the dnaT1 strain at a nonpermissive temperature. In keeping with this finding, in vitro replication of plasmid R1 did not require DnaT protein.  相似文献   

16.
A mutant strain of Bacillus megaterium, arising spontaneously and resistant to micrococcin , possesses ribosomes which contain an altered form of protein BM-L11 (the homologue of Escherichia coli protein L11). Reconstitution analysis has revealed that the alteration to protein BM-L11 is the sole cause of resistance in this strain.  相似文献   

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The spectrum of mutations induced by N-2-acetylamino-7-iodofluorene (AAIF) was analyzed in a forward mutation system based on mutagenesis directed to a small restriction fragment in the tetracycline resistance gene of plasmid pBR322. AAIF was found to induce frameshift mutations and base-pair substitutions at approximately equal frequencies. The frameshift mutations were mostly deletions of single base-pairs, but -2 frameshifts and +1 frameshifts were also detected. With one exception, the substitutions were transversions initiated at a G.C base-pair. Both frameshift mutations and transversions occurred preferentially at sites of repetitive guanine residues. Although AAIF and the related aromatic amines N-2-acetylaminofluorene (AAF) and N-2-aminofluorene (AF) all bind to the C-8 position of guanine, they have different effects on DNA conformation, and these differences are reflected in their mutation spectra. Previous studies have provided evidence that AAF adducts can trigger a B to Z conformational change in alternating GC sequences or displacement of the guanine by the fluorene ring in other sequences; the principal result is two classes of frameshift mutations. AF, whose DNA interaction involves outside binding rather than insertion and denaturation, primarily induces base-pair substitutions. AAIF adducts are chemically similar to AAF adducts, but the iodo group apparently hinders insertion of the fluorene ring into DNA. Consistent with this model, the mutation spectrum of AAIF combines properties of the mutation spectra of both AAF and AF.  相似文献   

20.
Summary The instability of supercoiled pBR322 DNA obtained from different cells has been investigated. Partially purified plasmid DNA species from rec +, recA and recBC sbcB cells are converted in vitro first to relaxed and then to linear molecules. The recA and recBC sbcB cells produce the best conditions for the monomerization of the pBR322 DNA and the stable maintenance of plasmids. The supercoiled pBR322 DNA from the recBC sbcB recF144 cells has been isolated preferentially in multimeric from (circular oligomers). These DNA forms are not converted to plasmid monomers and are converted to linear molecules three-fold slower than the monomer linearization in the case of the recBC sbcB cells.On the other hand, incubation of the pure pBR322 DNA with the recF-dependent protein Z (Krivonogov and Novitskaja 1982) results in the ATP-independent conversion of supercoiled plasmid DNA to relaxed and linear molecules. These results demonstrate an endonuclease activity of the recF-controlled protein Z, which may be involved in general recA-dependent recombination and formation of the pBR322 monomers in the cell.The results also show that the recF144 mutation in recBC sbcB recF and recF cells leads to the absence of detectable amounts of a 49,000 molecular weight protein.  相似文献   

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