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1.
Plasmid pBR322 DNA isolated from Salmonella typhimurium supX (topoisomerase I) mutants exhibits a novel supercoiling distribution characterized by extreme heterogeneity in linking number and the presence of highly negatively supercoiled topoisomers. The most negatively supercoiled topoisomers isolated from one supX mutant have more than twice the wild-type level of supercoiling; the distribution as a whole has a median superhelix density about 1.3 times that of wild type. Surprisingly, the supercoiling distribution of plasmid pUC9 DNA isolated from supX mutants differs from that of pBR322. Escherichia coli topoisomerase I mutants have been shown to acquire compensatory mutations that reduce bacterial chromosome supercoiling to below the wild-type level even in the absence of topoisomerase I. We find that such a compensatory mutation in an E. coli topoisomerase I deletion mutant does not reduce pBR322 DNA supercoiling to a level below that of wild type. Thus, the effects of topoisomerase mutations on supercoiling depend on the replicon.  相似文献   

2.
A specific DNA unwinding activity associated with SV40 large T antigen   总被引:3,自引:0,他引:3  
The incubation of highly purified large T antigen with relaxed, circular SV40 DNA in the presence of topoisomerase I (nicking closing enzyme) resulted in the introduction of negative superhelical turns in the DNA. ATP was not required for this reaction. A similar introduction of superhelical turns could also be obtained when a recombinant plasmid DNA (Y182), which contains sequences from both SV40 DNA and pBR322, was used. However, no effect was observed when relaxed pBR322 DNA, which does not contain SV40 DNA sequences, was incubated with T antigen in the presence of topoisomerase. These results are consistent with the hypothesis that large T antigen can recognize and unwind specific sequences on SV40 DNA.  相似文献   

3.
4.
Abstract

pBR322-derived plasmids have been constructed carrying d(GTAC)n·d(GTAC)n inserts of different lengths, in order to investigate the effect of insert size on cruciform extrusion and/or the B-Z transition. Plasmids with n ranging from 4 to 12 are hypersensitive to cleavage by the single-strand specific nucleases, S1 nuclease and Bal31 nuclease. Hypersensitive sites associated with the smaller alternating purine-pyrimidine tracts, however, coexist with the major pBR322 sites. Site-selective cleavage of these plasmids with the resolvase, T7 endonuclease I, demonstrates that all the inserts form cruciform structures when stably integrated into negatively supercoiled plasmids. An increase in the negative superhelical density of the DNA's induces cruciform formation within the insert region, resulting in a reduction in torsional stress consistent with the size of the insert. Moreover, as n decreases, the superhelical density required to stabilise the cruciform state increases. Therefore, the cruciform geometry is the favoured conformation of these d(GTAC)n·d(GTAC)n sequences under torsional stress. The stability of these cruciforms increases as n increases, with cruciformation occurring at lower superhelical densities and to the exclusion of the other pBR322 cruciforms.  相似文献   

5.
Antibacterial mechanism of soybean isoflavone on Staphylococcus aureus   总被引:1,自引:0,他引:1  
Effects of different flavonoids on various bacterial strains have been extensively reported; however, the mechanism(s) of their action on bacterial cells remain largely elusive. In this study, the antibacterial mechanism of soybean isoflavone (SI) on Staphylococcus aureus is systematically investigated using 4′6-diamidino-2-phenylindole (DAPI) staining, pBR322DNA decatenation experiment mediated by topoisomerase and agarose gel electrophoresis for direct decatenation. The results of fluorescence microscopy and fluorescence spectrophotometer indicated that DAPI was integrated in Staphylococcus aureus. Additionally, the quantity of both DNA and RNA reduced to 66.47 and 60.18%, respectively, after treated with SI for 28 h. Effects of SI on topoisomerase I and II were also investigated. SI completely inhibited the pBR322DNA unwinding mediated by topoisomerase I and topoisomerase II at the concentration of 6.4 mg/ml and could denature the plasmid DNA at the concentration of 12.8 mg/ml. These results indicate that topoisomerase I and II are the most important targets by SI to restrain bacterial cell division.  相似文献   

6.
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.  相似文献   

7.
Fragmentation of the plasmid pBR322 DNA by a purified preparation of Ca/Mg-dependent endonuclease has been studied. It was shown that on the first steps of reaction the double-stranded cuts are introduced into the superhelical DNA independent of singlestranded ones. The doublestranded cuts are introduced into superhelical and linear DNA in 12 sites enriched with GC-pairs, 9 of them include pentanucleotide CGCGG(CCGCC) that is functionally significant. Relaxation of the plasmid DNA by topoisomerase I blocks the sitespecific action of the enzyme. Ca/Mg-dependent endonuclease is concluded to be topologically dependent enzyme, possibly, participating in the recombination processes.  相似文献   

8.
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   

9.
Length-dependent cruciform extrusion in d(GTAC)n sequences   总被引:1,自引:0,他引:1  
pBR322-derived plasmids have been constructed carrying d(GTAC)n.d(GTAC)n inserts of different lengths, in order to investigate the effect of insert size on cruciform extrusion and/or the B-Z transition. Plasmids with n ranging from 4 to 12 are hypersensitive to cleavage by the single-strand specific nucleases, S1 nuclease and Bal31 nuclease. Hypersensitive sites associated with the smaller alternating purine-pyrimidine tracts, however, coexist with the major pBR322 sites. Site-selective cleavage of these plasmids with the resolvase, T7 endonuclease I, demonstrates that all the inserts form cruciform structures when stably integrated into negatively supercoiled plasmids. An increase in the negative superhelical density of the DNA's induces cruciform formation within the insert region, resulting in a reduction in torsional stress consistent with the size of the insert. Moreover, as n decreases, the superhelical density required to stabilise the cruciform state increases. Therefore, the cruciform geometry is the favoured conformation of these d(GTAC)n.d(GTAC)n sequences under torsional stress. The stability of these cruciforms increases as n increases, with cruciformation occurring at lower superhelical densities and to the exclusion of the other pBR322 cruciforms.  相似文献   

10.
The phosphoform of the type II regulatory subunit (phospho-RII-cAMP) of cAMP-dependent protein kinase from rat liver was found to possess intrinsic topoisomerase activity towards several DNA substrates such as phi X174, pBR322, SV40, and M13. Like the type I topoisomerases from several eukaryotic cells, phospho-RII X cAMP can relax both positive and negative superhelical turns of phi X174 DNA. Topological isomers with a decreasing number of superhelical turns can be identified as transient products. Conditions under which phospho-RII X cAMP relaxes superhelical phi X174 DNA lead to transient formation of a DNA-phospho-RII X cAMP complex via DNA strand breakage and covalent attachment of the DNA to a tyrosine residue of phospho-RII X cAMP via a phospho-RII X cAMP depends on the presence of cAMP and is altered by changes in the degree of phosphorylation of RII. Both dephosphorylation and removal of cAMP from phospho-RII X cAMP abolish its topoisomerase activity.  相似文献   

11.
Kowalska-Loth  B.  Bubko  I.  Komorowska  B.  Szumiel  I.  Staron  K. 《Molecular biology reports》1998,25(1):21-26
An in vitro system composed of nicked pBR322 DNA and purified topoisomerase I was employed to study the efficiency of the topoisomerase I-driven single-strand to double-strand DNA breaks conversion. At 1.4 × 105 topoisomerase I activity units per mg DNA about 20% single-strand nicks were converted into double-strand breaks during 30 min due to topoisomerase I action. Camptothecin inhibited the conversion. The conversion was also inhibited when the relaxing activity of the used topoisomerase I was increased by phosphorylation of the enzyme with casein kinase 2. The presented data suggest that topoisomerase I may be involved in production of double-stranded breaks in irradiated cells and that this process positively depends on the amount of topoisomerase I but not on its phosphorylation state.  相似文献   

12.
13.
Escherichia coli K-12 strains p108 (polA6), p3478 (polA1), and KS55 (polA12, ts) deficient in DNA polymerase I were transformed by recombinant pBR-mtB-A plasmid containing BamHI-A fragment of rat liver mtDNA and pBR322 plasmid. The physical map of the pBR-mtB-A, containing the recognition sites for SalI, EcoRI and HinIII endonucleases, was constructed and the orientation of mtDNA fragment joined to pBR322 plasmid was studied. The phenotypic selection using ampicillin containing medium at permissive and nonpermissive temperature (KS55 strain), or at 37 °C (polA6 and polA1 strains) revealed that only the cells transformed with the hybrid plasmid are able to grow under these conditions. The presence of mtDNA insertions in chimeric DNA molecules of pBR-mtB-A in polA strains was proved by electrophoretic and hybridization analysis. Thus the results obtained demonstrate the replication of the vehicle containing both plasmid replicon and mitochondrial origin in the conditions nonpermissive for the stable reproduction of the plasmid DNA alone.  相似文献   

14.
The influence of topoisomerase I and gyrase mutations in Escherichia coli on the supercoiled density of recombinant plasmids and the stability of left-handed Z-DNA was investigated. The formation of Z-DNA in vivo by dC-dG sequences of different lengths was used to determine the effective plasmid supercoil densities in the mutant strains. The presence of Z-DNA in the cells was detected by linking number and EcoRI methylase inhibition assays. A change in the unrestrained superhelical tension in vivo directly effects the B- to Z-DNA transition. Alterations in the internal or external environment of the cells, such as the inactivation of gyrase or topoisomerase I, a gyrase temperature-sensitive mutant, or starvation of cells, have a dramatic influence on the topology of plasmids. Also, E. coli has significantly more superhelical strain than Klebsiella, Morganella, or Enterobacter. These studies indicate that linking deficiency and effective supercoil density are mutually independent variables of plasmid tertiary structure. A variety of factors, such as protein-DNA interactions, activity of topoisomerases, and the resulting supercoil density, contribute to the B to Z transition inside living cells.  相似文献   

15.
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.  相似文献   

16.
Integration host factor (IHF), encoded by the himA and himD genes, is a histonelike DNA-binding protein that participates in many cellular functions in Escherichia coli, including the maintenance of plasmid pSC101. We have isolated and characterized a chromosomal mutation that compensates for the absence of IHF and allows the maintenance of wild-type pSC101 in him mutants, but does not restore IHF production. The mutation is recessive and was found to affect the gene topA, which encodes topoisomerase I, a protein that relaxes negatively supercoiled DNA and acts in concert with DNA gyrase to regulate levels of DNA supercoiling. A previously characterized topA mutation, topA10, could also compensate for the absence of IHF to allow pSC101 replication. IHF-compensating mutations affecting topA resulted in a large reduction in topoisomerase I activity, and plasmid DNA isolated from such strains was more negatively supercoiled than DNA from wild-type strains. In addition, our experiments show that both pSC101 and pBR322 plasmid DNAs isolated from him mutants were of lower superhelical density than DNA isolated from Him+ strains. A concurrent gyrB gene mutation, which reduces supercoiling, reversed the ability of topA mutations to compensate for a lack of him gene function. Together, these findings indicate that the topological state of the pSC101 plasmid profoundly influences its ability to be maintained in populations of dividing cells and suggest a model to account for the functional interactions of the him, rep, topA, and gyr gene products in pSC101 maintenance.  相似文献   

17.
H Takahashi  H Saito 《Plasmid》1982,8(1):29-35
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.  相似文献   

18.
Cruciform structures have been detected in pBR322 supercoiled DNA, both in its naked state and when complexed with histone octamer, using S1 endonuclease cleavage and EcoRI restriction. An inspection of the DNA sequence shows that the S1-hypersensitive sites are very near to AT-rich regions of pBR322 genome. A nucleosome “phasing” in these regions, as found on AT-rich regions of SV40 DNA (15), has been shown by restriction enzymes analysis. On the basis of these results it can be proposed that cruciform structures protrude on the nucleosome surface. This model explains the reason why these structures, which need high superhelical density, can exist in supercoiled DNA partially relaxed by nucleosome formation.  相似文献   

19.
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.  相似文献   

20.
The replication of plasmid pBR322 DNA has been reconstituted with purified proteins from Escherichia coli. Initiation of the leading-strand requires RNA polymerase holoenzyme, DNA polymerase I, RNase H, and DNA gyrase. Initiation of the lagging-strand requires the primosomal proteins (the dnaB, dnaC, and dnaG proteins, replication factor Y (protein n') and proteins i, n, and n") and the single-stranded DNA binding protein. DNA polymerase III holoenzyme is required for extensive elongation of the nascent DNA chains. The products of this replication reaction are primarily nonsegregated daughter molecules. However, the addition of small amounts of soluble extract from E. coli results in the completion and segregation of these molecules to give mature form I DNA, suggesting that additional factors are required for this process. Topoisomerase I is necessary to make the replication system specific for pBR322 DNA as a template, indicating that the linking number of the DNA, determined by an equilibrium between the opposing activities of topoisomerase I and DNA gyrase, plays a crucial role in determining the reactivity of the DNA molecule toward initiating DNA replication. The function of the proteins involved in the replication of this closed-circular, double-stranded, superhelical DNA is discussed.  相似文献   

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