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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)

It has been clarified that basic mechanism of deoxyribonucleic acid (DNA) replication is conserved from bacteria to higher cells. What distinguishes prokaryotic and eukaryotic modes of DNA replication most clearly is that bacterial chromosomes form a single replicon copied from a single initiation point and eukaryotic chromosomes consist of multiple replicons that initiate at multiple points. Thus, eukaryotes have to coordinate orderly replication of the genome. In order to understand this complex problem as a whole, three approaches were chosen. First approach is a genetic one. Certain number of temperature-sensitive (ts) mutants were isolated from mouse FM3A cells. One of the ts mutants, designated as tsFT20, was shown to contain heat-labile DNA polymerase alpha (pol. alpha). By the use of this mutant strain, it was proved that pol. alpha is essential for mammalian DNA replication. In addition, the human gene for pol. alpha on the X chromosome was assigned. Second approach is an enzymological one. FM3A cells were used for the identification and characterization of enzymes and proteins supposed to be involved in DNA replication. Four DNA-dependent ATPases, three pol. alpha stimulation factors, DNA topoisomerases I and II have been identified, as well as a stimulation factor for the assembly of nucleosome. DNA helicase activity was detected in two of the DNA-dependent ATPase (B and C1). Third approach is the reconstitution of DNA replication in cell-free system. By use of polyoma virus DNA as a template, cell-free extract from FM3A cells supported DNA replication in the presence of polyoma virus large T-antigen. This cell-free system will be useful for the analysis of the function of replication enzymes and proteins as well as the characterization of ts mutants.
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PMID:[Genetic and biochemical studies on the mechanism of mammalian chromosome replication]. 255 87

In this study, we have investigated the structural and physical properties of the bacteriophage T4 DNA polymerase accessory proteins. We find that T4 gene 44 and 62 proteins associate to form a tight, highly homogeneous complex, containing four gene 44 protein subunits and one gene 62 protein subunit. The molecular mass of the complex is 163,700 daltons. Sedimentation results suggest that the complex is quite asymmetric, with a prolate ellipsoid axial ratio of about 5:1. This protein complex is known to carry a DNA-dependent ATPase activity; we show by photoaffinity labeling that the ATP-binding sites reside in the gene 44 protein subunits of the complex. Equilibrium sedimentation and chemical cross-linking studies indicate that the T4 gene 45 protein self-associates to form a trimer in solution. This trimer species also appears to be quite asymmetric, showing an axial ratio for a prolate ellipsoid of about 6:1, assuming normal hydration.
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PMID:Structural and enzymatic studies of the T4 DNA replication system. I. Physical characterization of the polymerase accessory protein complex. 266 67

Ultraviolet light induced pyrimidine dimers in DNA are recognized and repaired by a number of unique cellular surveillance systems. At the highest level of complexity Escherichia coli (E. coli) has a uvr DNA repair system comprising the UvrA, UvrB and UvrC proteins responsible for incision. There are several preincision steps governed by this pathway which includes an ATP-dependent UvrA dimerization reaction required for UvrAB nucleoprotein formation. This complex formation driven by ATP binding, is associated with localized topological unwinding of DNA. This protein complex can catalyze an ATP-dependent 5'----3' directed strand displacement of D-loop DNA or short single strands annealed to a single stranded circular or linear DNA. This putative translocational process is arrested when damaged sites are encountered. The complex is now primed for dual incision catalyzed by UvrC. The remainder of the repair process involves UvrD (helicase II) and DNA polymerase I for a coordinately controlled "excision resynthesis" step accompanied by UvrABC turnover. Furthermore, it is proposed that levels of repair proteins can be regulated by proteolysis. UvrB is converted to truncated UvrB* by a stress induced protease which also acts at similar sites on the E. coli Ada protein. Although UvrB* can bind with UvrA to DNA it cannot participate in helicase or incision reactions. It is also a DNA-dependent ATPase.
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PMID:Dynamics of the Escherichia coli nucleotide excision repair system. 266 5

The tau and gamma subunits of the DNA polymerase III holoenzyme of Escherichia coli were each isolated in large quantities as oligomers from overproducing cells in which their genes (dnaZ and X) were under the control of a T7 phage promoter. The 52-kDa gamma subunit (encoded by the dnaZ sequence) contains three-forths of the N-terminal residues of the 71-kDa tau subunit (encoded by the dnaX sequence). Both gamma and tau share a binding site for ATP (or dATP). A DNA-dependent ATPase activity (Lee, S.H., and Walker, J.R. (1987) Proc. Natl. Acad. Sci. U. S. A. 84, 2713-2717) exhibited only by the tau subunit, presumably requires a DNA-binding site in the C-terminal domain lacking in the gamma subunit. Among ATPases dependent on single-stranded DNA, the tau activity is remarkable in the failure of homopolymers (e.g. poly(dA) or poly(dT)) to replace natural DNAs. The presumed need for certain secondary structures may reflect a feature of template binding in the crucial contribution that tau makes to the high processivity of polymerase III holoenzyme. Limited tryptic digestion of tau generates a fragment that resembles gamma in: (i) size, (ii) binding of ATP without ATPase activity, and (iii) a level of complementing holoenzyme activity in extracts of dnaZ-mutant cells that is higher than that of tau.
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PMID:ATP interactions of the tau and gamma subunits of DNA polymerase III holoenzyme of Escherichia coli. 268 Nov 83

The genes encoding all three T4 DNA polymerase accessory proteins have been cloned into overexpression plasmids. Induction of cells harboring these plasmids results in the synthesis of each accessory protein at levels that approach 10% of the total cellular protein. The solubility of the accessory proteins after induction at 42 degrees C ranges from about 60% to greater than 95%. A plasmid that allows overexpression of the 44P/62P complex has been manipulated further to overexpress selectively the 44P subunit without 62P, permitting us to assess how each subunit contributes to the properties of the 44P/62P complex. A comparison of 44P and 44P/62P by conventional hydrodynamic techniques shows that 44P forms a subcomplex nearly as large as the 44P/62P complex. In addition, 44P catalyzes DNA-dependent ATP hydrolysis with a specific activity similar to that of the 44P/62P ATPase. However, unlike the 44P/62P complex, the ATPase activity of 44P alone is only slightly stimulated by 45P. This suggests that one role of the 62P subunit is to facilitate a productive interaction of 44P and 45P.
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PMID:The 44P subunit of the T4 DNA polymerase accessory protein complex catalyzes ATP hydrolysis. 278 75

The DNA replicase activity of the complex between bovine thymus DNA polymerase alpha and RNA primase was markedly decreased after the purification by ssDNA-cellulose column chromatography. In an attempt to restore the activity by supplementing some fractions eliminated from the purified enzyme, we found that a fraction eluted from the column by increasing salt concentration and 30% ammonium sulfate precipitates of the phosphocellulose-step enzyme possessed a high ability to restore the replicase activity. Thus, the factors were purified to near homogeneity from the two sources and the properties were examined. Both factors were heat-labile and trypsin-sensitive, possessed a native molecular mass of approximately 150-200 kDa as judged by Sephacryl S-200 column chromatography, and were composed of two polypeptides of 146 kDa and 47 kDa on SDS/polyacrylamide gel electrophoresis, indicating that they were an identical protein. The factor, which did not show any DNA polymerase or primase activities by itself, stimulated approximately 20-fold the replicase activity of purified DNA-polymerase-alpha-primase at a very low concentration (10 ng/50 microliter). The factor did not affect the deoxyribonucleotide polymerizing activity of the enzyme complex at all, but specifically stimulated the primase activity only. Thus, we designated the factor as primase-stimulating factor. Although varying the template concentration did not significantly affect the mode of stimulation, increasing the concentration of substrate for primer synthesis (ATP) markedly decreased the extent of stimulation. Thus, the stimulating factor seems to decrease the substrate concentration required for the primase reaction as well as increasing threefold the maximum activity attained by varying the substrate concentration. So far, no ATPase activity has been detected in the factor.
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PMID:Purification and properties of a specific primase-stimulating factor of bovine thymus. 283 71

A DNA helicase was extensively purified from Xenopus laevis ovaries. The most purified fraction was free of DNA topoisomerase, DNA polymerase, and nuclease activities. The enzyme had a Stokes radius of 54 A and a sedimentation coefficient of 6-7.3 S, from which a native molecular weight of 140,000-170,000 was calculated. DNA helicase activity required Mg2+ or Mn2+ and was dependent on hydrolysis of ATP or dATP. Monovalent cations, K+ and Na+, stimulated DNA unwinding with an optimum at 130 mM. DNA-dependent ATPase activity copurified with the X. laevis DNA helicase. Double-stranded and single-stranded DNA were both cofactors for the ATPase activity, but single-stranded DNA was more efficient. The molecular weight, monovalent cation dependence, cofactor requirements, and elution from single-stranded DNA-cellulose suggest that the X. laevis DNA helicase is different from previously described eukaryotic DNA helicases.
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PMID:A DNA helicase from Xenopus laevis ovaries. 285 68

The replication of DNA containing either the polyoma or SV40 origin has been done in vitro. Each system requires its cognate large-tumour antigen (T antigen) and extracts from cells that support its replication in vivo. The host-cell source of DNA polymerase alpha - primase complex plays an important role in discriminating between polyoma T antigen and SV40 T antigen-dependent replication of their homologous DNA. The SV40 origin- and T antigen-dependent DNA replication has been reconstituted in vitro with purified protein components isolated from HeLa cells. In addition to SV40 T antigen, HeLa DNA polymerase alpha - primase complex, eukaryotic topoisomerase I and a single-strand DNA binding protein from HeLa cells are required. The latter activity, isolated solely by its ability to support SV40 DNA replication, sediments and copurifies with two major protein species of 72 and 76 kDa. Although crude fractions yielded closed circular monomer products, the purified system does not. However, the addition of crude fractions to the purified system resulted in the formation of replicative form I (RFI) products. We have separated the replication reaction with purified components into multiple steps. In an early step, T antigen in conjunction with a eukaryotic topoisomerase (or DNA gyrase) and a DNA binding protein, catalyses the conversion of a circular duplex DNA molecule containing the SV40 origin to a highly underwound covalently closed circle. This reaction requires the action of a helicase activity and the SV40 T antigen preparation contains such an activity. The T antigen associated ability to unwind DNA copurified with other activities intrinsic to T antigen (ability to support replication of SV40 DNA containing the SV40 origin, poly dT-stimulated ATPase activity and DNA helicase).
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PMID:In vitro replication of DNA containing either the SV40 or the polyoma origin. 289 81

We have established a novel procedure to purify calf thymus DNA polymerase delta from cytoplasmic extracts. The enzyme has typical properties of DNA polymerase delta including a 3' - greater than 5' exonuclease activity and efficiently replicates natural occurring genomes such as primed single-stranded M13 DNA and single-stranded porcine circovirus DNA, this last one thanks to an associated or contaminating primase activity. A processivity of at least a thousand bases was evident and this in the apparent absence of proliferating cell nuclear antigen. The enzyme was purified through a procedure that allows the simultaneous isolation of DNA polymerase delta, DNA polymerase alpha-primase and a DNA dependent ATPase. All these enzymes coeluted from a phosphocellulose column. After chromatography on hydroxylapatite DNA polymerase delta separated from the coeluting DNA polymerase alpha and DNA dependent ATPase. Separation of the latter two was achieved on heparin-Sepharose. DNA polymerase delta was further purified by heparin-Sepharose and fast protein liquid chromatography. Purified DNA polymerase delta was resistant to the DNA polymerase alpha inhibitors BuPdGTP and BuAdATP and did not react with DNA polymerase alpha monoclonal and polyclonal antibodies. Based on this isolation protocol we can start to test biochemically the hypothesis whether DNA polymerase delta and DNA polymerase alpha might act coordinately at the replication fork as leading and lagging strand replicases, respectively.
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PMID:Calf thymus DNA polymerase delta: purification, biochemical and functional properties of the enzyme after its separation from DNA polymerase alpha, a DNA dependent ATPase and proliferating cell nuclear antigen. 289 82

DNA-dependent ATPase IV has been purified to near homogeneity from the Novikoff rat hepatoma. The enzyme is devoid of DNA polymerase, RNA polymerase, exonuclease, endonuclease, phosphomonoesterase, 3'- or 5'-phosphodiesterase, polynucleotide kinase, protein kinase, topoisomerase, helicase or DNA reannealing activities at a detection level of 10(-5) to 10(-7) relative to the ATPase activity. The enzyme is a monomer of Mr 110,000, has a sedimentation coefficient of 5.9 S, a Stokes radius of 40 A and a frictional coefficient of 1.32. In the presence of Mg2+ ion and a polynucleotide effector, ATPase IV hydrolyzes either ATP or dATP to the nucleoside diphosphate plus Pi. Other ribo- or deoxyribonucleoside triphosphates are not substrates. ATPase IV utilizes double-stranded DNA and single-stranded DNA as effector; however, it does not utilize poly(dT). The Km for dsDNA or ssDNA is 2.2 microM (nucleotide). A variety of ATP analogues were found to be competitive inhibitors of ATPase IV.
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PMID:Purification and enzymological characterization of DNA-dependent ATPase IV from the Novikoff hepatoma. 296 5

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