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)

Using a combination of conventional column chromatography and velocity sedimentation, we have purified the 65-kilodalton DNA-binding protein (65KDBP) encoded by herpes simplex virus (HSV) greater than 625-fold. The HSV type 1 (HSV-1)-encoded DNA polymerase (pol) cofractionated with 65KDBP through DEAE-Sephacel, Blue Sepharose, and Mono Q columns and was only separated from 65KDBP by sedimentation through a glycerol gradient. Immunoaffinity columns containing monoclonal antibody (MAb) 6898 immunoglobulin effectively bound most of the HSV-1 pol activity which coeluted with 65KDBP. The pattern of reactivities of HSV-1/HSV-2 recombinants with MAbs specific for HSV-1 65KDBP or the HSV-2-infected cell-specific protein ICSP34,35 strongly suggests that these two species are serotype equivalents of the same protein. Taken together, all these data indicate that 65KDBP is a pol-associated protein and the HSV-1 counterpart of HSV-2 ICSP34,35 previously reported to have similar properties (P. J. Vaughan, D. J. M. Purifoy, and K. L. Powell, J. Virol. 53:501-508, 1985). Purified preparations of 65KDBP were capable of binding to double-stranded DNA, as determined by filter retention and mobility shift assays. The protein-DNA complex formed with 65KDBP was distinct from that produced by pol and could be further shifted by the addition of immunoglobulin specific for 65KDBP. These results demonstrate that 65KDBP has been purified substantially free from pol and indicate that DNA binding is an inherent property of the protein.
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PMID:Purification of the herpes simplex virus type 1 65-kilodalton DNA-binding protein: properties of the protein and evidence of its association with the virus-encoded DNA polymerase. 283 6

An entirely new method of sequencing DNA has been devised that does not use electrophoresis, radioactivity, or fluorescence. The method works by measuring pyrophosphate generated by the DNA polymerization reaction. DNA and DNA polymerase are held by a DEAE-Sepharose column and solutions containing different dNTPs are pumped through. The pyrophosphate generated is measured continuously by a device consisting of a series of columns containing enzymes covalently attached to Sepharose. The alternating copolymer poly(dA.dT) is sequenced as an illustration of the method. Future improvements that will facilitate automation are discussed.
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PMID:A new method of sequencing DNA. 285 82

The replication of simian virus 40 has been studied by using cell-free extracts derived from human 293 cells. Fractionation of this extract has led to the identification of three fractions that are required for efficient DNA synthesis. Initial fractionation of the crude extract by phosphocellulose chromatography has produced two fractions, I and II, neither of which is able to support replication separately, but when they are combined, efficient synthesis is restored. Both fractions are required, with SV40 T antigen, for the formation of a presynthesis complex at the SV40 origin. The major replication enzymes, DNA polymerase, DNA primase and the topoisomerases I and II all reside in fraction II. Fraction I has been subdivided into two subfractions (A and B) by DEAE-cellulose chromatography. Fraction A is essential for replication and is required for presynthesis complex formation. Fraction B stimulates DNA replication and is only required at the elongation stage. This multicomponent system has provided the foundation for identification of individual components that are required for DNA replication in vitro.
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PMID:Identification of multiple cellular factors required for SV40 replication in vitro. 289 84

We have undertaken a search for mammalian DNA-binding proteins that enhance the activity of DNA polymerases in a template sequence-specific fashion. In this paper, we report the extensive purification and characterization of a new DNA-binding protein from rabbit liver that selectively stimulates DNA polymerases to copy synthetic poly[d(G-C)] and the poly(dC) strand of poly(dC).poly(dG) as well as single-stranded natural DNA that contains stretches of oligo(dC). The enhancing protein, a polypeptide of 65 kDa designated factor C, stimulates the copying of the two synthetic templates by Escherichia coli DNA polymerase I, Micrococcus luteus polymerase, and eukaryotic DNA polymerases alpha and beta, but not by avian myeloblastosis virus polymerase. Factor C, however, does not affect utilization by these polymerases of the poly(dG) strand of poly(dC).poly(dG), of poly(dC) primed by oligo(dG), or of poly(dA).poly(dT) and poly[d(A-T)]. With polymerase I, Michaelis constants (Km) of poly[d(G-C)] and of the poly(dC) strand of poly(dC).poly(dG) are decreased by factor C 37- and 4.7-fold, respectively, whereas maximum velocity (Vmax) remains unchanged. By contrast, neither the Km value of the poly(dG) strand of poly(dC).poly(dG) nor the Vmax value with this template is altered by factor C. Rates of copying of activated DNA, denatured DNA, or singly primed M13 DNA are not affected significantly by factor C. However, primer extension analysis of the copying of recombinant M13N4 DNA that contains runs of oligo(dC) within an inserted thymidine kinase gene shows that factor C increases processivity by specifically augmenting the efficiency at which polymerase I traverses the oligo(dC) stretches. Direct binding of factor C to denatured DNA is indicated by retention of the protein-DNA complex on columns of DEAE-cellulose. Binding of factor C to poly[d(G-C)] is demonstrated by the specific adsorption of the enhancing protein to columns of poly[d(G-C)]-Sepharose. We propose that by binding to poly[d(G-C)] and to poly(dC).poly(dG), factor C enables tighter binding of some DNA polymerases to these templates and facilitates enzymatic activity.
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PMID:Factor C from rabbit liver. A new poly(dC) and poly[d(G-C)] template-selective stimulatory protein of DNA polymerases. 292 91

Human cytomegalovirus-induced DNA polymerase and cellular DNA polymerase alpha were purified by successive chromatography on DEAE-cellulose, phosphocellulose, heparin agarose, and single-stranded DNA agarose columns. The purified virus-induced DNA polymerase was resolved to consist of two polypeptides corresponding to molecular weights of 140,000 and 58,000, as analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Virus-induced DNA polymerase and cellular alpha polymerase were examined for their sensitivities to the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil (FMAUTP), -5-iodocytosine (FIACTP), and -5-methylcytosine (FMACTP). The inhibitive effects of these triphosphates on the DNA polymerases were competitive with regard to the natural substrates; thus FMAUTP competes with dTTP, and FIACTP and FMACTP compete with dCTP. The inhibition constants (Ki) for FMAUTP, FIACTP, and FMACTP of virus-induced DNA polymerase are 0.06, 0.30, and 0.47 microM, respectively. Cellular DNA polymerase alpha is much less sensitive to these inhibitors, and its Ki values for FMAUTP, FIACTP, and FMACTP are 0.45, 3.10, and 2.90 microM, respectively. In addition, human cytomegalovirus-induced DNA polymerase, but not cellular DNA polymerase alpha, can utilize these analog triphosphates as alternate substrates for their corresponding natural deoxyribonucleoside triphosphates in in vitro DNA synthesis.
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PMID:Human cytomegalovirus-induced DNA polymerase and its interaction with the triphosphates of 1-(2'-deoxy-2'-fluoro-beta-D-arabinofuranosyl)-5-methyluracil, -5-iodocytosine, and -5-methylcytosine. 299 40

Virus-nonproducer Raji cells, when induced to early antigen synthesis by 12-O-tetradecanoyl-phorbol-13-acetate and sodium butyrate, showed an increase in DNA polymerase activity. This enzyme has the characteristics of a typical Epstein-Barr virus DNA polymerase with regard to chromatographical pattern and biological properties: it is eluted from DEAE-cellulose at 0.08 M NaCl, has a high salt resistance, is sensitive to phosphonoacetic acid and phosphonoformate, and shows a substrate preference for poly(dC)-oligo(dG12-18). The resistance of Epstein-Barr virus polymerase activity to aphidicolin is a property distinct from that of HSV DNA polymerase. Viral DNA polymerase activity increases in the absence of Epstein-Barr virus DNA replication, indicating that this enzyme is an early viral protein.
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PMID:Epstein-Barr virus-specific DNA polymerase in virus-nonproducer Raji cells. 300 79

We have previously developed simian virus 40 (SV40) DNA replication system in vitro (Ariga and Sugano, J. Virol. 48, 481, 1983). This system is composed of human HeLa or mouse FM3A nuclear extract and cytoplasmic extract of SV40 infected CosI cells. Here FM3A nuclear extract was fractionated by DEAE Sephacel and single-stranded DNA cellulose chromatography into three components required for accurate in vitro SV40 DNA replication. One fraction (A fraction) contained DNA polymerase-primase, and the second component (B fraction) contained DNA topoisomerase. Third component was further purified to near homogenuity using DEAE-Sephacel, single-stranded DNA cellulose, and glycerol gradient centrifugation. The purified protein (named factor I) bound to the origin containing fragment of SV40 DNA. The factor I enhanced the initiation of SV40 DNA replication catalyzed by SV40 infected CosI cytoplasm alone. When all four fractions consisting of A, B fractions, factor I, and SV40 infected CosI cytoplasm were mixed together, the system was reconstituted, meaning that initiation and subsequent elongation were completed to generate the full sized daughter molecules.
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PMID:Simian virus 40 DNA replication in vitro: purification and characterization of replication factors from mouse cells. 302 15

It has been suggested that herpes simplex virus (HSV) type 1 may induce a virus-specific DNA topoisomerase activity which copurifies with virus-induced DNA polymerase. We have examined DNA topoisomerase (TOPO) I and II activities in HSV-2-infected HeLa S3 cells. Both activities were partially purified using DEAE-cellulose, phosphocellulose and double-stranded DNA cellulose column chromatography. It was found that both activities could be separated from HSV-2-specific DNA polymerase. Throughout the purification TOPO I could be immunologically detected with a monoclonal antibody developed against human TOPO I. Regardless of the source, mock- or HSV-2-infected human cells, both types of topoisomerase were equally tolerant of 200 mM-KCl. There appeared to be no apparent heterogeneity of TOPO I in HeLa S3 cells through the course of the HSV-2 infection. We conclude that host cell topoisomerases are quite stable in HSV-2-infected HeLa S3 cells and that there is no evidence that HSV-2 is capable of inducing HSV-2-specific TOPO I and TOPO II activities.
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PMID:Studies on DNA topoisomerases I and II in herpes simplex virus type 2-infected cells. 303 49

The role of Epstein-Barr virus (EBV) early antigen diffuse component (EA-D) and its relationship with EBV DNA polymerase in EBV genome-carrying cells are unclear, EBV-specified DNA polymerase was purified in a sequential manner from Raji cells treated with phorbol-12,13-dibutyrate and n-butyrate by phosphocellulose, DEAE-cellulose, double-stranded DNA-cellulose, and blue Sepharose column chromatography. Four polypeptides with molecular masses of 110,000, 100,000, 55,000, and 49,000 daltons were found to be associated with EBV-specified DNA polymerase activity. A monoclonal antibody which could neutralize the EBV DNA polymerase activity was prepared and found to recognize 55,000- and 49,000-dalton polypeptides. An EA-D monoclonal antibody, R3 (G. R. Pearson, V. Vorman, B. Chase, T. Sculley, M. Hummel, and E. Kieff, J. Virol. 47:183-201, 1983), was also able to recognize these same two polypeptides associated with EBV DNA polymerase activity. It was concluded that EBV EA-D polypeptides, as identified by R3 monoclonal antibody, are critical components of EBV DNA polymerase.
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PMID:Association of Epstein-Barr virus early antigen diffuse component and virus-specified DNA polymerase activity. 303 83

Epstein-Barr virus (EBV) DNA polymerase was released from phorbol ester-treated tamarin (Saguinus oedipus) cells (B95-8) and prepared for use as an antigen by sequential column chromatography with DEAE-Sephadex A-25, DEAE-cellulose, phosphocellulose, and single-stranded DNA cellulose. Proteins from single-stranded DNA cellulose with DNA polymerase activity in 100 mM ammonium sulfate were mixed with complete Freund adjuvant and injected intradermally into rats and rabbits. Immune sera that were screened for specific antibody by indirect immunofluorescence procedures reacted with approximately 3% of the cells in EBV-producer cultures (B95-8 and P3HR-1) but not with EBV genome-negative cells (BJAB). In functional enzyme assays, immune sera or the immunoglobulin fraction inhibited the activity of purified EBV DNA polymerase 90%. Inhibition of enzyme activity was not affected by absorption of immune sera with insoluble matrices of proteins prepared with tamarin and human cells which lacked the EBV genome. Cellular DNA polymerase alpha was not inhibited by immune sera to the EBV enzyme.
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PMID:Specific immune serum to the Epstein-Barr virus DNA polymerase. 304 Oct 54

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