EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Replication in vitro of the replicative form (RF) I DNA of bacteriophage varphiX174 requires the phage-induced cistron A (cisA) protein, the host rep protein, DNA-binding protein, ATP, and DNA polymerase III plus replication factors. The rep protein is a single-stranded DNA-dependent ATPase. In this paper we show that varphiX174 RF I DNA cut by the cisA protein acts as a duplex DNA cofactor for the rep protein ATPase activity, provided that DNA-binding protein is present. In this latter reaction the duplex DNA is unwound by the rep protein with concomitant hydrolysis of ATP. The extents of ATP hydrolysis, DNA unwinding, and, where appropriate, DNA synthesis are proportional to the amounts of DNA-binding protein present. Two ATP molecules are hydrolyzed per base pair unwound. We propose that the obligatory requirement for the cisA protein in the unwinding of varphiX174 RF I DNA is not simply due to its endonuclease activity but rather is due to its provision of a site for the binding of the rep protein. The rep protein in the presence of DNA-binding protein, but in the absence of cisA protein, unwinds duplex DNA when one strand extends to generate a single-stranded leader region preceding the duplex. We show that rep protein translocates along the leader single strand in a 5'-to-3' direction only and then invades the duplex DNA. The rep protein shows a directional specificity for translocation and unwinding. A model is presented to explain the mechanism of DNA unwinding catalyzed by the rep protein.
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PMID:Enzyme-catalyzed DNA unwinding: studies on Escherichia coli rep protein. 22 1

A DNA endonuclease, Endo-I, which cleaves superhelical DNAs, has been isolated from avian myeloblastosis virions stripped of their coats by mild detergent treatment. The enzyme has a broad pH optimum around 7.5-8.0 and requires Mg2+ for activity. A second endonuclease, Endo-II, with a requirement for Mn2+, also present in viral cores, copurified with avian myeloblastosis virus alpha beta DNA polymerase (reverse transcriptase, RNA-dependent DNA nucleotidyltransferase) and similarly cleaved superhelical DNAs. Heat denaturation and sodium fluoride and N-ethylmaleimide inhibition studies were carried out to demonstrate a possible relationship between the two endonucleases and the viral DNA polymerase and RNase H activities. It appears that Endo-II may be an intrinsic activity of the polymerase.
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PMID:DNA endonucleases associated with the avian myeloblastosis virus DNA polymerase. 22 53

Mutations (paar) in herpes simplex virus (HSV) which confer resistance to phosphonoacetic acid involve genes associated with virus-induced DNA polymerase activity. Two mutants of HSV (HSV-1 tsH and HSV-2 ts6) produce a thermolabile DNA polymerase activity. In this study, the ts lesions present in these mutants and those present in two independent phosphonoacetic acid-resistant mutants of HSV-1 and HSV-2 (paar-1 and paar-2) have been physically mapped by restriction endonuclease analysis of recombinants produced between HSV-1 and HSV-2 by intertypic marker rescue. All four mutations mapped within a 3.3-kilobase pair region around map unit 40. The accuracy of the method is reflected by the mapping results for tsH and paar-2, which were found to lie in the same 1.3-kilobase pair region. paar-1 was found to lie to the right of ts6. Virus-induced DNA polymerase is thought to have a molecular weight of 150,000, necessitating a gene with a coding capacity of 4.6 kilobase pairs. The four mutations mapped in this study all lie within a region smaller than this, but the results do not yet prove that all four lesions reside in this or any single gene.
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PMID:Physical mapping of paar mutations of herpes simplex virus type 1 and type 2 by intertypic marker rescue. 22 53

A cell-free system for the study of viral DNA replications was developed by the isolation of a nuclear membrane fraction "DNA replication complex" from adenovirus 2-infected human KB cells late after infection. This complex which possesses both DNA polymerase activity and a virus-specific endonuclease synthesizes exclusively virus-specific DNA sequences in vitro by a semiconservative mechanism. Analysis by rate zonal sedimentation in alkaline sucrose gradients showed that the products of the reaction are small DNA chains approximately 6 to 9 S, presumably "Okazaki intermediates," that are not sealed under our in vitro conditions. Analysis by rate zonal sedimentation in neutral sucrose gradients showed that labeled viral DNA fragments are hydrogen bonded to viral 18 S DNA segments, 0.25 the size of the linear, viral 31 S DNA genome. The 18 S DNA is probably a specific cleavage product of the viral endonuclease found in the replication complex and could represent intermediates in viral DNA replication or degradation products.
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PMID:Adenovirus deoxyribonucleic acid replication. II. Synthesis of viral deoxyribonucleic acid in vitro by a nuclear membrane fraction from infected KB cells. 23 46

Purified preparations of the parvovirus, Kilham rat virus, have associated with them a protein with DNA polymerase activity. The enzyme has been separated from the other two or three viral proteins and purified 63-fold. The viral associated enzyme was found in a single peak of DNA polymerase activity after chromatography on DEAE-cellulose, DNA-cellulose, and phosphocellulose columns. It shares some properties in common with the host cellular DNA polymerases, described in the preceding paper (Salzman, L.A., and McKerlie, L. (1975) J. Biol. Chem. 250, 5589-5595), but also has some important distinguishing characteristics. The Kilham rat virus-associated DNA polymerase has increased enzyme activity in the presence of 0.02 M KCl and has a strong preference for a synthetic DNA polymer containing deoxyadenylate and deoxythymidylate. The enzyme has a molecular weight of approximately 75,000 plus or minus 3,000 and appears to contain endonuclease activity.
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PMID:Characterization of the deoxyribonucleic acid polymerase associated with Kilham rat virus. 23 24

In a first part of this report, purification and characterization of several nucleased from lysates of Haemophilus influenzae are described. The enzymes bind to DNA with agarose columns and are removed by elution with phosphate buffer. Among the considered enzymes, the exonucleases 1 and 3, and endonuclease, a DNA polymerase and a restriction enzyme were recovered mixed by raising the phosphate concentration from 0.1 to 0.3 M, while the ATP-dependent DNAase recovered well purified, by raising the phosphate concentration to 0.45 M. After a rechromatography, on a second DNA with agarose column, of the peak of the ATP-dependent DNAase, the specific activity tested with 3H-labeled DNA was 125 units/mg of protein, representing a 300-fold purification of the original crude extract. In a second part, we have investigated the inactivation, at various pH, of transforming DNA of Haemophilus influenzae wild strain Rd with the different eluted fractions of the column, in order to determine the importance of contamination with other enzymatic activities, and also in order to confirm the nature of theisolated enzymes with a biological method. Finally, with enzymatic extracts of mutant strain Rd com minus 56, a strain which integrates shorter than normal pieces of DNA and which is suspected to possess and "activated specific endonuclease" able to recognize even small conformational modifications in paired structures, we tried to detect this activity on artificially constructed heteroduplex regions in DNA.
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PMID:Studies on deoxyribonucleases from Haemophilus influenzae on DNA agarose affinity chromatography. Two-step purification of ATP-dependent deoxyribonuclease. 23 41

The presence of endonuclease activity associated with DNA polymerase was detected during the purification of high-molecular-weight DNA polymerase-alpha from regenerating rat liver by the use of a highly sensitive test. This endonuclease activity co-fractionated with DNA polymerase in a great variety of purification procedures involving ion-exchange chromatographies or molecular weight fractionation, but was further completely separated from DNA polymerase activity by using affinity chromatography on DNA-cellulose. The endonuclease acted on native or denatured DNA by introducing single-strand nicks in the DNA molecules; its enzymatic properties indicate that it could act in polymerisation conditions in vitro.
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PMID:Co-fractionation of an endonuclease activity during the purification of DNA polymerase-alpha from regenerating rat liver. Properties and separation from DNA polymerase. 24 42

The cistron A protein induced by phage varphiX174 nicks (produces a single-strand break in) the viral strand of the superhelical varphiX duplex DNA, thereby forming a complex with the DNA. The protein, seen bound to the DNA in the electron microscope, was located in the restriction endonuclease fragment between nucleotides 4290 and 4330 on the varphiX map [Sanger, F., Air, G. M., Barrel, B. G., Brown, N. L., Coulson, A. R., Fiddes, J. C., Hutchison, C. A., III, Slocomb, P. M. Y. & Smith, M. (1977) Nature 265, 687-695]. Replication also was initiated at this point, thus identifying the site of cistron A protein nicking and binding as the origin of replication. The cisA-DNA complex (separated from free cistron A protein), upon the addition of Escherichia coli rep protein, ATP, and DNA binding protein, is unwound to generate a single-stranded linear [presumably the nicked (+) strand] and a circular [presumably the (-) strand] molecule. The cisA-DNA complex, upon the further addition of DNA polymerase III holoenzyme and deoxynucleoside triphosphates, supports replication to generate viral, single-stranded circles, as many as 15 circles per cisA-DNA complex. The replicating intermediates seen in the electron microscope are a novel form of "rolling circle" [Gilbert, W. & Dressler, D. H. (1969) Cold Spring Harbor Symp. Quant. Biol. 33, 473-485]. The 5' end (presumably with the cistron A protein bound to it) is locked in the replication fork and loops back to accompany the strand-separation and replication fork around the template [(-) strand] circle. Thus, the multiple functions of cistron A protein include: (i) nicking the viral strand at the origin of replication to initiate a round of replication, (ii) participating in a complex which supports fork movement in strand separation and replication, (iii) nicking again at the regenerated origin to produce a unit-length DNA, and (iv) ligating the newly generated 3'-OH end to the 5'-phosphate-complexed end to form a circular viral molecule.
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PMID:phiX174 cistron A protein is a multifunctional enzyme in DNA replication. 26 83

DNA polymerase-alpha and -beta can be distinguished from one another by the differential effects of N-ethylmaleimide, KCl, ara-CTP and temperature, as well as on the basis of sedimentation. The sensitivity of DNA polymerase-beta to elevated temperatures as compared to DNA polymerase-alpha provides a new means of distinguishing between these two enzymes even in crude extracts and a possible probe for determining their function. DNA polymerase-alpha and -beta share several properties in common, including the ability to readily incorporate dUTP in place of dTTP. The Km for dUTP varies from 10 to 30 micron with different preparations of DNA polymerase-alpha and -beta. Thus, in mammalian cells, dUMP could be incorporated into DNA, and if excised by an endonuclease, would lead to discontinuities. Initial analyses of fidelity in direct comparative studies indicate that beta-class DNA polymerases are highly accurate in base selection when copying poly[d(A-T)]. Less than one molecule of dGMP is incorporated for every 12 000-45 000 molecules of dAMP and dTMP polymerized. DNA polymerase-alpha is somewhat less accurate, making one mistake for every 4000-10 000 correct nucleotides incorporated. Since both polymerases lack an exonucleolytic activity, this accuracy must be the result of selectivity for the complementary nucleotide by the polymerase.
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PMID:Distinctive properties of mammalian DNA polymerases. 28 7

DNA of hepatitis B virus (HBV) of hepatitis B surface antigen (HBsAg) subtype adw2 made fully double stranded by the virion DNA polymerase and radiolabeled either by the virion DNA polymerase reaction or by nick-translation with 32P-labeled deoxynucleoside triphosphates was used to establish a map of restriction endonuclease cleavage sites by the method double and triple enzyme digestion and to determine the relative positions of several unique physical features of this DNA. The five restriction sites for enzyme HincII, the two sites each for BamHI, Ava I, and Bgl II, and the single sites for EcoRI, Pst I, Hpa I, and Taq I were positioned relative to each other. Within this map, the single-stranded region in HBV DNA has been localized and the locations of nicks in each strand (a and b) have been determined with respect to restriction sites on the circular map. Comparison of restriction endonuclease cleavage patterns of DNAs of HBV of HBsAg subtypes adw2, ayw3, and adrq+ revealed consistent differences among subtypes and occasional differences within subtypes.
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PMID:Restriction endonuclease cleavage map and location of unique features of the DNA of hepatitis B virus, subtype adw2. 29 95

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