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1.
Multiple DNA-dependent enzyme activities have been detected in highly purified preparations of a single-strand-specific nuclease from vaccinia virus. These enzyme preparations were extensively purified and characterized by using superhelical DNAs as substrates. In particular, the nuclease activity was monitored by the extent of conversion of supercoiled closed duplex DNA (DNA I) to nicked circular DNA (DNA II), which could subsequently be converted to duplex linear DNA (DNA III) by prolonged incubation with the enzyme. DNA species which were not substrates for the enzyme included relaxed closed duplex DNA, DNA II which had been prepared by nuclease S1 treatment or by photochemical nicking of DNA I, and DNA III. With plasmid pSM1 DNA as substrate, the extent of cleavage of DNA I to DNA II was found to increase with superhelix density above a threshold value of about -0.06. The linear reaction products were examined by gel electrophoresis after restriction enzyme digestion of the DNAs from plasmids pSM1 and pBR322 and of the viral DNAs from bacteriophage phi X174 (replicative form) and simian virus 40, and the map coordinate locations of the scissions were determined. These products were further examined by electron microscopy and by gel electrophoresis under denaturing conditions. Electron micrographs taken under partially denaturing conditions revealed molecules with terminal loops or hairpins such as would result from the introduction of cross-links at the cutting sites. These species exhibited snapback renaturation. The denaturing gel electrophoresis experiments revealed the appearance of new bands at locations consistent with terminal cross-linking. With pSM1 and pBR322 DNAs, this band was shown to contain DNA that was approximately twice the length of a linear single strand. The terminal regions of the cross-linked linear duplex reaction products were sensitive to nuclease S1 but insensitive to proteinase K, suggesting that the structure is a hairpin loop not maintained by a protein linker. A similar structure is found in mature vaccinia virus DNA.  相似文献   

2.
A spectrophotometric method to quantify linear DNA   总被引:2,自引:0,他引:2  
A spectrophotometric method for quantification of linear DNA is described. The assay measures ADP produced following digestion of linear DNA by an ATP-dependent deoxyribonuclease. Cleavage of the phosphodiester bond of the DNA substrate is proportional to ADP formed in the reaction which follows typical Michaelis-Menten kinetics (K(m) of 0.6 microM, and a V(max) of 30 nmol/min/mg). The enzyme requires Mg(2+)-ATP and Mg(2+)-DNA as substrates, although the results suggest a requirement for yet another metal ion which may be enzyme bound. Both single-stranded and double-stranded linear DNA are substrates, as demonstrated by comparable initial velocity measurements. However, covalently closed circular (CCC) and nicked open circular DNA are not substrates for the enzyme. The rate of hydrolysis of ATP is not inhibited by 1 microg RNA or covalently closed circular DNA. The product (ADP) formed in the reaction is coupled to NADH oxidation using pyruvate kinase and lactate dehydrogenase. NAD formed in the reaction is monitored spectrophotometrically as a loss in absorbance at 340 nm. This assay directly measures the amount of linear DNA present in preparations of supercoiled (CCC) plasmid DNA, and has direct utility for monitoring the quality of plasmid preparations for gene therapy.  相似文献   

3.
The time course of the EcoRI endonuclease catalysed cleavage of three substrates, two plasmid DNAs and one oligonucleotide, each with two EcoRI sites, was measured. The two plasmid DNAs with the EcoRI sites 318 and 96 base pairs apart are cut in a distributive fashion, while the oligonucleotide with the EcoRI sites 8 base pairs apart is cut in a partially processive manner. It is concluded that a linear diffusion of the EcoRI endonuclease on its substrate across long stretches of DNA is not likely to be operative during the recognition process. Microscopic dissociation-reassociation processes, however, increase the probability of the enzyme to attack further sites located in the immediate vicinity of a given site.  相似文献   

4.
5.
A purification procedure described previously resulting in electrophoretically pure Bacillus subtilis ATP-dependent DNAse has now been modified by adding a fractionation stage with Polymin P to permit large-scale isolation of the enzyme. It has been found that the enzyme molecule (Mr = 300000) consists of two large subunits with Mr 155000 and 140000. The purified enzyme has three activities: (1) DNAse on linear single-stranded and double-stranded DNAs (2) DNA-unwinding and (3) ATPase. Circular DNAs were not affected by the enzyme. Study of the dependence of these activities on temperature, pH, and ATP and Mg2+ concentrations has revealed two different states of the enzyme. At low ATP concentrations and alkaline pH, it showed chiefly nuclease action, degrading considerable amounts of DNA to small fragments five residues long on average. At higher ATP concentrations and neutral pH (more physiological conditions) it predominantly unwound DNA. Simultaneously it cut preferentially one of the duplex strands to fragments more than 1000 residues in length. The results obtained suggest that the energy of the enzyme-cleaved ATP is mainly expended on unwinding rather than on degrading DNA molecules.  相似文献   

6.
K Suzuki  K Iwata  K Yoshida 《DNA research》2001,8(4):141-152
The phytopathogenic bacterium Agrobacterium tumefaciens is unique in that it possesses both linear and circular DNA chromosomes in addition to a plant-tumor-inducing (Ti) plasmid. We analyzed the two chromosomal DNA molecules in strain MAFF301001, whose Ti plasmid has already been sequenced completely. Physical maps of the chromosomal DNAs were constructed by Southern hybridization experiments using Pme I and Swa I fragments and short fragments bridging the Swa I fragments with special care to avoid any missing fragment. Hybridization with 16S rDNA probe showed one rDNA locus on the linear chromosome and two loci on the circular chromosome. For this bacterium to be pathogenic, not only Ti plasmid but also chromosomal genes are required. The chromosomal virulence (chv) genes (chvA, chvB, chvD, chvE, chvG, chvH, and chvI) and the chromosomal genes affecting the virulence [acvB, pgm(exoC), glgP, miaA, and ros] were successfully mapped onto 5 different regions in the chromosomal physical maps. These chv genes and the chromosomal genes affecting the virulence other than pgm and glgP were found on the circular chromosome, whereas the pgm and glgP genes were located on the linear chromosome. In contrast to the large terminal inverted repeats of Streptomyces linear chromosomal DNA, no hybridization signal was detected between left and right terminal fragments of the linear A. tumefaciens chromosome. Quantitative analysis of DNA fragments indicated that the copy numbers of the two chromosomal DNAs and the Ti plasmid are identical.  相似文献   

7.
Analysis of chromosomal integration and deletions of yeast plasmids.   总被引:58,自引:7,他引:51       下载免费PDF全文
Plasmid DNAs from six strains of Saccharomyces cerevisiae were compared. Three different plasmids were found, designated Scp 1, Scp 2 and Scp 3, with monomer lengths of 6.19, 6.06 and 5.97 kilobases as referenced to sequenced phiX174 DNA. DNA from each of the plasmids was inserted into a lambda vector DNA. Hybrid phage containing inserted DNA of the desired size were enriched by genetic selection and their DNAs analysed by rapid techniques. All three plasmids share the same organization, two unique sequences separated by two inverted repeats, and share basically the same DNA sequences. Scp 2 and Scp 3 differ from Scp 1 by missing a unique HpaI site and by having small overlapping deletions in the same region. The HpaI site in Scp 1 is, therefore, in a nonessential region and suitable for insertion of foreign DNA in the potential use of the yeast plasmid as a vector. Hybridization of labelled cloned plasmid DNA to restriction fragments of linear yeast DNA separated on agarose gels showed that the plasmid DNA was not stably integrated into the yeast chromosomal DNA.  相似文献   

8.
Uptake of plasmid deoxyribonucleic acid by Haemophilus   总被引:6,自引:4,他引:2       下载免费PDF全文
The uptake of circular and linear plasmid RSF0885 deoxyribonucleic acids, (DNAs) obtained from Haemophilus parainfluenzae 14, in both homologous and heterologous recipients was studied and compared with that of chromosomal DNA. High concentrations of divalent cations stimulated the uptake of either circular or linear plasmid DNA in H. parainfluenzae 14 competent cells but did not affect the uptake of chromosomal DNA. The biological activity of linear plasmid DNA was similar to that of circular DNA, and the transforming efficiencies for ampicillin resistance of both molecular forms were stimulated by divalent ions. Plasmid DNA was taken up efficiently either with or without the addition of divalent ions but was not biologically active in the heterologous Haemophilus influenzae Rd recipient. Our results suggest that in H. parainfluenzae 14 some of the steps for chromosomal and plasmid DNA uptake are different.  相似文献   

9.
With E. coli, large and variable amounts of chromosomal and plasmid DNAs are observed in the supernatants of overnight cultures when the cells carry an endA mutation, but are not detected by gel electrophoresis when the cells carry the wild type allele of endA. Significant amounts of nuclease activity in DH11S endA+ supernatants were detected by two simple assays; the rapid degradation of added pBR322 plasmid DNA, as judged by agarose gel electrophoresis, and a decrease of more than 100000 fold in transformation efficiency of the added pBR322 plasmid DNA. By employing isogenic endA mutant and wild type strains of DH11S and DH10B/F' proAB+ laclq Z delta M15, it was shown that detectable levels of chromosomal and plasmid DNAs are observed only in the endA mutant strains. These results indicate that Endonuclease I activity is responsible for degradation of chromosomal and plasmid DNA usually present in preparations of ssDNA. Therefore, a wild type endA gene is useful for the rapid and simple production of highly purified ssDNA from cells containing phagemid vectors.  相似文献   

10.
A K Bej  M H Perlin 《Gene》1991,98(1):135-140
Plasmid pUCH1 is a 5.2-kb pUC18 construct bearing the hygB gene fused to a promoter from Cochliobolus heterostrophus. Haploid cells of the basidiomycete, Ustilago violacea, were transformed with this plasmid. In addition to multiple integrations of plasmid sequences into U. violacea nuclear DNA, vector sequences independent of the nuclear genome were indicated by Southern-blot analysis using all or part of pUCH1 as a probe. Hybridization also revealed intact pUCH1 and several larger derivatives in satellite bands from CsCl-bis-benzamide gradients of whole cellular DNA and in DNA from purified mitochondria [mitochondrial (mt) DNA preparations] of transformed U. violacea; circular DNAs consistent with the sizes of DNAs in these satellite bands were seen in electron microscope analyses of the same mt DNA preparations as well. The plasmids could be detected in mt DNA preparations even after 30 generations of transformant growth under selective pressure. Transformation of Escherichia coli by these mt DNA preparations produced bacterial transformants bearing intact pUCH1, as well as several pUCH1 derivatives, including pUCH2, an approx. 8.0-kb plasmid. A 2.5-kb EcoRI fragment from pUCH2 showed only weak hybridization with pUCH1. This unique fragment did hybridize strongly with mt DNA from untransformed U. violacea. This derivative thus appears to have acquired mt sequences from U. violacea.  相似文献   

11.
《Gene》1997,195(2):303-311
A method was developed to clone linear DNAs by overexpressing T4 phage DNA ligase in vivo, based upon recombination deficient E. coli derivatives that carry a plasmid containing an inducible T4 DNA ligase gene. Integration of this ligase-plasmid into the chromosome of such E. coli allows standard plasmid isolation following linear DNA transformation of the strains containing high levels of T4 DNA ligase. Intramolecular ligation allows high efficiency recircularization of cohesive and blunt-end terminated linear plasmid DNAs following transformation. Recombinant plasmids could be constructed in vivo by co-transformation with linearized vector plus insert DNAs, followed by intermolecular ligation in the T4 ligase strains to yield clones without deletions or rearrangements. Thus, in vitro packaged lox-site terminated plasmid DNAs injected from phage T4 were recircularized by T4 ligase in vivo with an efficiency comparable to CRE recombinase. Clones that expressed a capsid-binding 14-aa N-terminal peptide extension derivative of the HOC (highly antigenic outer capsid) protein for T4 phage hoc gene display were constructed by co-transformation with a linearized vector and a PCR-synthesized hoc gene. Therefore, the T4 DNA ligase strains are useful for cloning linear DNAs in vivo by transformation or transduction of DNAs with nonsequence-specific but compatible DNA ends.  相似文献   

12.
The prophage of coliphage N15 is not integrated into the bacterial chromosome but exists as a linear plasmid molecule with covalently closed ends. Upon infection of an Escherichia coli cell, the phage DNA circularises via cohesive ends. A phage-encoded enzyme, protelomerase, then cuts at another site, telRL, and forms hairpin ends (telomeres). We demonstrate that this enzyme acts in vivo on specific substrates, and show that it is necessary for replication of the linear prophage. We show that protelomerase is an end-resolving enzyme responsible for processing of replicative intermediates. Removal of protelomerase activity resulted in accumulation of replicative intermediates that were found to be circular head-to-head dimers. N15 protelomerase and its target site constitute a functional unit acting on other replicons independently of other phage genes; a mini-F or mini-P1 plasmid carrying this unit replicates as a linear plasmid with covalently closed ends. Our results suggest the following model of N15 prophage DNA replication. Replication is initiated at an internal ori site located close to the left end of plasmid DNA and proceeds bidirectionally. After replication of the left telomere, protelomerase cuts this sequence and forms two hairpin loops telL. After duplication of the right telomere (telR) the same enzyme resolves this sequence producing two linear plasmids. Alternatively, full replication of the linear prophage to form a circular head-to-head dimer may precede protelomerase-mediated formation of hairpin ends.  相似文献   

13.
付娟  高才昌 《植物学通报》2000,17(5):401-406
本文列出了已发现的高等植物中的线粒体DNA质粒,按分子形状分为线粒体环状DNA质粒和线粒体线状DNA质粒,环状线粒体DNA质粒的特征是分子较小,序列中有正向/反向重复序列,ORF一般较小。线状线粒体DNA质粒的特征是分子较大,末端有重复序列,5’端与蛋白质共价结合,有较长的ORF。还分别介绍了它们的复制机制、转录和起源。质粒间及质粒及核基因组、线粒体基因组、叶绿体基因组的同源性也作了介绍。最后,综  相似文献   

14.
付娟  高才昌 《植物学报》2000,17(5):401-406
本文列出了已发现的高等植物中的线粒体DNA质粒,按分子形状分为线粒体环状DNA质粒和线粒体线状DNA质粒,环状线粒体DNA质粒的特征是分子较小, 序列中有正向/反向重复序列,ORF一般较小。线状线粒体DNA质粒的特征是分子较大,末端有重复序列,5'端与蛋白质共价结合,有较长的ORF。还分别介绍了它们的复制机制、转录和起源。质粒间及质粒与核基因组、线粒体基因组、叶绿体基因组的同源性也作了介绍。最后,综述了植物线粒体DNA质粒与植物的细胞质雄性不育(CMS)之间的关系。  相似文献   

15.
Abstract

The binding activities of the 170 kDa and the 180 kDa human topoisomerases II (topo IIa and topo IIβ) to linear DNA fragments with different degrees of curvature were characterized. In gel retardation experiments it was shown that both forms of the enzyme bind preferentially to a curved 287 bp fragment, forming a detectable stable complex. The affinity for straight DNA fragments of similar length is significantly lower. Both a commercially available topo IIa, isolated from placenta, and topo IIα and topo IIβ purified from nuclear extracts of the Namahva lymphoma tissue culture line gave similar results. The effects of double-stranded poly[d(A-T)], poly[d(G-C)], supercoiled plasmid DNA and linear Z-DNA on the topo II- complex with curved DNA were analyzed in competition experiments. The hierarchy of affinities of the 180 kDa topo IIβ for these DNAs has the order: linear left-handed DNA > supercoiled DNA ? curved DNA ? poly[d(A-T)] ? poly[d(G-C)]. The 170 kDa topo IIa binds with similar affinity to curved DNA and linear Z-DNA ? supercoiled DNA ? linear B- DNA The data imply that human topoisomerase II binding is more sensitive to DNA secondary structure than to DNA sequence per se. The ability of the enzyme to preferentially recognize a wide variety of sequences in unusual secondary structures suggests a mode of targeting the enzyme in vivo to regions of high negative supercoiling.  相似文献   

16.
The relative immunogenicities of the poly[d(G-C)] and poly[d(A-C) · d(G-T)] families of helices have been determined. The specificities of the resultant immunoglobulins have been characterized for recognition of different synthetic and natural left-handed sequences and conformations. Certain modifications of poly[d(G-C)] in the sugar-phosphate bacbone and cytosine C-5 potentiate the right(R)-to-left(L) (BZ) transition under physiological conditions. The resulting polynucleotides, poly[d(GS-C)], poly[d(G-io5C)], poly[d(G-br5C)] and poly[d(G-m5C)], are also highly immunogenic. In contrast, DNAs incapable of assuming the left-handed conformation under physiological salt concentrations are weakly or non-immunogenic. These include unmodified poly[d(G-C)] as well as members of the poly[d(A-C) · d(G-T)] family of sequences bearing pyrimidine C-5 substitutions (methyl, bromo, iodo). These polynucleotides undergo the R → L isomerization under more stringent ionic and thermal conditions.The specificities of purified polyclonal and monoclonal anti-Z DNA immunoglobulins (IgG) were measured by binding to radiolabeled polynucleotides, by electrophoretic analysis of IgG bound to covalent closed circular DNAs, and by immunofluorescent staining of polytene chromosomes. The salt-induced left-handed forms of poly[d(G-C)] and its derivatives (including the cytidine C-5 methyl, bromo, iodo, and N-5 aza substituted polynucleotides) and of the modified poly[d(A-C) · d(G-T)] polymers are bound to varying degrees by different antibodies. The patterns of substrate recognition demonstrate the existence of several antigenic domains in left-handed DNAs, including the helix convex surface and the sugar-phosphate backbone. Substitutions in these regions can produce enhancing (required substitutions), neutral, or inhibitory effects on subsequent IgG binding. Additionally, certain modifications of either the convex surface of Z DNA at the C-5 position of cytidine (i.e. a methyl group) or of the backbone (i.e. phosphorothioate substitution) can lead to polymorphic lefthanded conformations that are compatible with antibody binding when present individually but not in combination. The recognition patterns exhibited with DNA substrates from the two DNA families indicate that some, but not all, IgGs show specificity for different nucleotide sequences.The anti-Z DNA IgGs were used to probe for specific left-handed Z DNA determinants on plasmid (e.g. pBR322) or viral (e.g. simian virus 40 (SV40)) DNAs and on the acid-fixed polytene chromosomes of dipteran larvae. At their extracted superhelical density, the negatively supercoiled form I, but not the relaxed, nicked, or linear forms of all tested plasmid and viral DNAs specifically bind sequence-independent anti-Z IgGs. Dimers, trimers and higher oligomers of form I DNA cross-linked by bivalent anti-Z IgGs are formed with numerous (e.g. φX174, SV40, pBR322) genomes. Their occurrence depends upon IgG concentration and specificity, the conditions of ionic strength and temperatures and the DNA genome. The IgG cross-linked DNA multimers are converted to monomers by dithiothreitol reduction. Sequence-independent monovalent anti-Z Fab fragments bind form I DNA but do not generate oligomeric species. Multimers of order >2 indicate the existence of at least two anti-Z Ig binding sites per molecule, as in the case of SV40. IgGs differ in their ability to form stable complexes with some sites on natural DNAs, presumably due to their sequence and conformation binding specificities. A differential binding of these antibodies is also observed in certain bands of polytene chromosomes, such as the telomeric regions that are involved in chromosome associations.  相似文献   

17.
The relative frequency of initiation of DNA replication within the RTF-Tc and r-determinant components of the composite drug resistance plasmid NR1 in Proteus mirabilis was evaluated. Using fractionated radioactively labeled plasmid DNA, analytical procedures that distinguished between the two components of the composite plasmid were carried out. A mixture of uniformly 14C-labeled and 3H-pulse-labeled plasmid DNA (pulse-labeled origin[s] of replication) was used in each of three experiments. First, shear products of the DNA were analyzed using CsCl density gradient centrifugation. Second, fragmented DNA was hybridized to nonradioactive RTF-Tc and r-determinant DNAs immobilized on nitrocellulose filters. Third, the radioactive plasmid DNAs immobilized on nitrocellulose filters. Third, the radioactive plasmid DNA was digested with restriction enzyme (EcoRI), producing a set of RTF-Tc and r-determinant fragments with differing 3H/14C isotpe ratios. The three experiments suggested that under the conditions used to accumulate replicating plasmid DNA molecules (DNA substrate limitation), the r-determinant origin of replication was preferentially utilized in the composite plasmid.  相似文献   

18.
According to the current paradigm type IIE restriction endonucleases are homodimeric proteins that simultaneously bind to two recognition sites but cleave DNA at only one site per turnover: the other site acts as an allosteric locus, activating the enzyme to cleave DNA at the first. Structural and biochemical analysis of the archetypal type IIE restriction enzyme EcoRII suggests that it has three possible DNA binding interfaces enabling simultaneous binding of three recognition sites. To test if putative synapsis of three binding sites has any functional significance, we have studied EcoRII cleavage of plasmids containing a single, two and three recognition sites under both single turnover and steady state conditions. EcoRII displays distinct reaction patterns on different substrates: (i) it shows virtually no activity on a single site plasmid; (ii) it yields open-circular DNA form nicked at one strand as an obligatory intermediate acting on a two-site plasmid; (iii) it cleaves concertedly both DNA strands at a single site during a single turnover on a three site plasmid to yield linear DNA. Cognate oligonucleotide added in trans increases the reaction velocity and changes the reaction pattern for the EcoRII cleavage of one and two-site plasmids but has little effect on the three-site plasmid. Taken together the data indicate that EcoRII requires simultaneous binding of three rather than two recognition sites in cis to achieve concerted DNA cleavage at a single site. We show that the orthodox type IIP enzyme PspGI which is an isoschisomer of EcoRII, cleaves different plasmid substrates with equal rates. Data provided here indicate that type IIE restriction enzymes EcoRII and NaeI follow different mechanisms. We propose that other type IIE restriction enzymes may employ the mechanism suggested here for EcoRII.  相似文献   

19.
S Chang  D Ho  J R McLaughlin  S Y Chang 《Gene》1984,29(3):255-261
Circular heteroduplex DNA molecules introduced into Escherichia coli-competent cells are converted to new recombinant plasmids as a result of enzymatic actions in vivo. A pair of plasmids with partial sequence homology were each linearized at a different position with restriction enzymes, and the termini were made flush with the single-strand-specific S1 nuclease. Duplex molecules were then formed by melting and annealing these plasmid DNAs together. In contrast to linear homoduplex molecules, heteroduplexes circularize and therefore transform E. coli efficiently. Unique DNA sequences on each of the parental strands in the transforming heteroduplexes can be selectively incorporated or deleted as a result of in vivo enzymatic activities in transformed cells. This method permits the generation of new recombinant sequences in vivo without relying solely on the presence of convenient restriction sites for manipulation of DNA fragments in vitro.  相似文献   

20.
E F Glumova  A A Prozorov 《Genetika》1983,19(12):1958-1964
Transformation with chromosomal and plasmid DNAs comprised in liposomes of different compositions was studied on competent cells of Bacillus subtilis. Transformation with chromosomal DNA comprised in liposomes appeared to constitute 1.1 to 1.5% of the control, and transformation with plasmid DNA in liposomes reaches 8 to 11%, as compared to the control. It has been revealed that absorbtion of chromosomal or plasmid DNA comprised in liposomes by competent cells is 1-2 orders higher than that of chromosomal or plasmid DNAs which are not contained in liposomes. Besides, chromosomal DNA in liposomes was found to be transferred to competent cells in the double-stranded form, while during common transformation without liposomes, the DNA transferred is single-stranded.  相似文献   

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