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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)

Mitochondria isolated from rat liver cells or mycoplasma-free HeLa cells contain a single DNA polymerase activity which is closely related to, or identical to, the DNA polymerase gamma activity found in the homologous cell. In rat liver cells, about 16% of the total cytoplasmic gamma-polymerase activity is found associated with mitochondria and in HeLa cells about 20% of the total cellular gamma-polymerase is mitochondria associated. Since mitochondria possess no unique DNA polymerase activity, the number of DNA polymerases now known in mammalian cells is reduced, from the previously proposed four enzymes, to three--DNA polymerases alpha, beta, and gamma.
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PMID:DNA polymerase of mitochondria is a gamma-polymerase. 1 96

We have previously reported [(Ohno, T., Sweet, R.W., Hu, R., DeJak, D. & Spiegelman, S. (1977) Proc. Natl. Acad. Sci. USA 74, 764-768)] on the purification and characterization of the DNA polymerase from human breast cancer particles. Its preference for certain synthetic templates and its ability to use a viral RNA to fashion a faithful DNA transcript identify it as a reverse transcriptase similar to that found in the mouse mammary tumor virus and in the Mason-Pfizer monkey virus (MPMV). We report here that the human breast cancer enzyme crossreacts immunologically with the reverse transcriptase of MPMV. The crossreactivity was shown both by inhibition of enzyme activity and by complex formation between purified enzyme and isolated IgG against MPMV polymerase. No such interactions were observed with other oncornavirus reverse transcriptases of avian, murine, feline, or simian origin. Further, the IgG failed to neutralize the reverse transcriptases from human mesenchymal neoplasias (leukemias and lymphomas) or the activities of normal cellular DNA polymerases (alpha, beta, gamma).
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PMID:Antigenic relatedness of the DNA polymerase of human breast cancer particles to the enzyme of the Mason-Pfizer monkey virus. 6 75

Phosphonoacetic acid has been shown to suppress replication of DNA tumor viruses by inhibiting the activity of virus-induced DNA polymerase and consequently viral DNA synthesis. We now have evidence to show that phosphonoacetic acid inhibits also the cellular DNA polymerases alpha, beta, and gamma of L1210 cells as well as reverse transcriptases of two type C viruses. Particularly, the DNA polymerase alpha is just as sensitive as the herpes virus induced DNA polymerase. The DNA polymerases beta and gamma required seven times more phosphonoacetic acid for a 50% inhibition of their activities. Phosphonoacetic acid inhibited the activities of the reverse transcriptase and terminal deoxyribonucleotidyltransferase only at higher concentrations. Kinetic analysis with the DNA polymerase alpha showed that the compound is a non-competitive inhibitor with respect to the substrates and uncompetitive inhibitor with the activated DNA template. Studies on time course of phosphonoacetic acid inhibition revealed that the compound is inhibitory even after the initiation of DNA synthesis. Phosphonoacetic acid also inhibited cell growth as well as the type C virus production; at concentrations above 50 microgram/ml, the inhibitory effect was more profound on the type C virus production than on cell growth.
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PMID:Inhibition of activities of DNA polymerase alpha, beta, gamma, and reverse transcriptase of L1210 cells by phosphonoacetic acid. 8 50

The present study describes the separation and purification of a reverse transcriptase and cellular DNA polymerases from the human spleen of a patient with myelofibrotic syndrome. The specific requirements with respect to bivalent cations and templateprimers for DNA polymerase-alpha, DNA polymerase-beta and DNA polymerase-gamma, as well as for the reverse transcriptase, are reported. Sedimentation velocity measurements of the purified enzymes gave values of 150 000, 40 000, 100 000 and 70 000 daltons for DNA polymerase-alpha, DNA polymerase-beta, and DNA polymerase-gamma and the reverse transcriptase respectively. The purified reverse transcriptase was specifically inhibited by antisera to the reverse transcriptases of the two primate viruses, SiSV and GaLV. Antisera raised against the myelofibrotic spleen reverse transcriptase inhibited the homologous enzyme and also the reverse transcriptase from SiSV and GaLV. DNA polymerases alpha, beta and gamma from the same spleen were not inhibited by the antisera. These results constitute the first indication of a possible retroviral etiology for myelofibrotic syndrome. Since SiSV and GaLV are exogenous to all primates the results indicate that this polymerase was acquired and the results are most simply interpreted as indicating that virus related to the SiSV-GaLV group is present in man.
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PMID:[Experiments towards the viral etiology of a preleukemic syndrome: osteomyelofibrosis (author's transl)]. 8 39

To determine the possible role of DNA polymerase alpha, beta and gamma during the repair period following ultraviolet (lambda max : 254 nm) irradiation of monkey CV-1 cells, we measured the three enzymatic activities by using specific tests, either in crude extracts or after fractionation by sucrose gradient (5--20%) centrifugation at high salt concentration. When compared to the unirradiated control, we could not detect any significant variation in the levels of activity of DNA polymerases alpha, beta and gamma at any time (0, 12 to 48 h) after ultraviolet irradiation of the cells with doses ranging from 9 to 52.5 J.m-2.
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PMID:DNA polymerase alpha, beta and gamma activities in ultraviolet irradiated CV-1 monkey cells. 15 49

We have partially purified and characterized two separate DNA polymerase activities associated with Epstein-Barr virus (EB virus). One activity is present in EB virus producer cell lines but not in nonproducer or negative cell lines. It adheres more strongly to DEAE-cellulose than any host cell enzymes, eluting at 210 to 270 mM potassium phosphate buffer. Further elution from phosphocellulose and sedimentation in glycerol gradients yields an enzyme purified 900-fold with an S value of 8.3. The second DNA polymerase activity co-purifies with EB viral particles, elutes at low salt from DEAE-cellulose (40 to 60 mM potassium phosphate buffer) and phosphocellulose (100 mM), and has an S value of 9.5 on glycerol gradient sedimentation. These two enzymes are referred to for convenience as the EB virus-induced DNA polymerase and the EB virion-associated DNA polymerase. The EB virus-induced polymerase can be distinguished from host alpha, beta, and the virion-associated polymerase in 1) being resistant to salt inhibition, 2) having a more basic pH optima in Tris buffer (pH 9.5), and 3) having a 10-fold lower saturating concentration for the activated DNA template. The EB virion-associated polymerase is distinguished from host alpha, beta, and the EB virus-induced polymerase, because it cannot utilize synthetic deoxy- and ribohomopolymer primer-templates in place of the activated calf thymus DNA template in DNA polymerase assays. Neither of the EB virus-associated polymerases can copy the ribohomopolymers dT10poly(rA) or dG12-18(poly(rC) efficiently and therefore can be distinguished from host gamma polymerase and reverse transcriptase. The activity of the EB virus-induced and virion-associated polymerases are unaffected both by antibody to alpha polymerase, and by antiserum with high antibody titers to EB early antigen and viral capsid antigen.
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PMID:Two Epstein-Barr virus-associated DNA polymerase activities. 21 39

Pyrans are co-polymers of divinyl ether and maleic anhydride. Four pyrans of various molecular weights more potently inhibited terminal deoxyribonucleotidyltransferase (EC 2.7.7.31) from a human cell line of acute lymphoblastic leukemia origin (Molt-4) than they did DNA polymerases alpha, beta and gamma from these cells and DNA polymerase from simian sarcoma virus. For example, the concentrations of one pyran required for 50% inhibition of terminal deoxynucleotidyltransferase, DNA polymerases alpha, beta and gamma and viral DNA polymerase were 0.9, 110, 125, 35 and 47 microgram/ml respectively. Quantitatively similar results were obtained with the other pyrans. Inhibition of these enzymes by pyran was dependent on the concentrations of both the bivalent cation and template/primer or initiator in assay mixtures, but not on the concentrations of the substrate (deoxyribonucleoside 5'-triphosphate), enzyme, or bovine serum albumin. These results suggested that pyran inhibited these enzymes by complexing bivalent cations, which caused a decreased affinity of template/primer or initiator for each enzyme and a decrease in enzyme activity.
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PMID:Inhibition of deoxyribonucleic acid polymerases from human cells and from simian sarcoma virus by pyran. 21 45

Herpes simplex virus (HSV) DNA polymerase was isolated on a large-scale from African green monkey kidney cells infected with HSV type 1 (HSV-1) strain Angelotti. After DNA-cellulose chromatography the enzyme showed a specific activity of 48,000 units/mg protein. Three major single polypeptides with molecular weights of 144,000, 74,000 and 29,000 were copurified with the enzyme activity at the DNA-cellulose ste. By its chromatographic behavior and by template studies, the HSV DNA polymerase activity was clearly distinguishable from cellular alpha, beta and gamma DNA polymerase activities. Two exonucleolytic activities were found in the DNA-cellulose enzyme preparation. The main exonucleolytic activity, which degraded both single-stranded and double-stranded DNA to deoxynucleoside 5'-monophosphates, was separated by subsequent velocity sedimentation. The remaining exonucleolytic activity was not separable from the HSV DNA polymerase by several chromatographic steps and by velocity sedimentation at high ionic strength. This novel exonuclease and HSV DNA polymerase were equally sensitive both to phosphonoacetic acid and Zn2+ ions, inhibitors of the viral polymerase. Similar to the 3'-to-5'-exonuclease of procaryotic DNA polymerases and mammalian DNA polymerase delta, the HSV-polymerase-associated exonuclease catalyzed the removal of 3'-terminal nucleotides from the primer/template as well as the template-dependent conversion of deoxynucleoside triphosphates to monophosphates.
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PMID:Properties of herpes simplex virus DNA polymerase and characterization of its associated exonuclease activity. 22 46

HEp-2 cells were infected with herpes simplex virus type 1 and extracted with 0.25% Triton X-100 and 0.1 M NaCl. The extract was sedimented on sucrose gradients, and the fractions containing the endogenous DNA polymerizing activity (replication complex) were collected. The properties of the replication complex were partially characterized. Under optimal conditions 375 pmol of dTMP per micrograms of DNA was incorporated, which corresponds to about 50% replication of preexisting viral DNA. The replication complex was shown to contain only DNA of viral origin by its density in CsCl. By using specific assays for DNA polymerases alpha, beta, gamma, and herpes simplex virus, we found that only the viral DNA polymerase copurified with the replication complex.
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PMID:Herpes simplex virus DNA synthesis in a partially purified soluble extract from infected cells. 22 58

DNA polymerase III holoenzyme has been purified from Escherichia coli HMS-83, using, as an assay, the conversion of coliphage G4 single-stranded DNA to the duplex replicative form. The holoenzyme consists of at least four different subunits: alpha, beta, gamma, and delta of 140,000, 40,000, 52,000, and 32,000 daltons, respectively. The alpha subunit is DNA polymerase III, the dnaE gene product. The holoenzyme has been resolved by phosphocellulose chromatography into an alpha - gamma - delta complex and a subunit beta (copolymerase III*); neither possesses detectable activity in the G4 system but together reconstitute holoenzyme-like activity. The alpha - gamma - delta complex has been further resolved to yield a gamma - delta complex which reconstitutes alpha - gamma - delta activity when added to DNA polymerase III. The gamma - delta complex contains a product of the dnaZ gene and has been purified from a strain which contains a ColE1-dnaZ hybrid plasmid.
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PMID:DNA polymerase III holoenzyme of Escherichia coli. Purification and resolution into subunits. 33 May 31

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