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)

DNA polymerase from RNA tumor viruses ("reverse transcriptase") has been analyzed for activities which have been associated with other DNA polymerases. Homogeneous DNA polymerase from avian myeoblastosis virus catalyzes pyrophosphate exchange and pyrophosphorolysis. Pyrophosphate exchange is dependent on a template and is base-specific. With avian myeloblastosis virus DNA polymerase, ribonucleotide templates are more efficient for synthesis while deoxyribonucleotide templates are more effective for pyrophosphate exchange. Synthesis, pyrophosphate exchange, and pyrophosphorolysis were inhibited by the chelating agent 1,10-phenanthroline, suggesting that enzyme-bound zinc is required for each of these reactions. The pyrophosphate exchange reaction was also demonstrated with the DNA polymerase from a mutant of Rous sarcoma virus that possesses a temperature-sensitive DNA polymerase. The pyrophosphate exchange reaction with the mutant polymerase is temperature-sensitive which demonstrates that pyrophosphate exchange is indeed catalyzed by the viral DNA polymerase and that the same mutation effects both DNA polymerase and pyrophosphatase activity. Unlike Escherichia coli DNA polymerase I, the DNA polymerase from avian myeloblastosis virus fails to degrade polydeoxyribonucleotides or to convert deoxynucleoside triphosphates into monophosphates. This lack of hydrolytic activities in avian myeoblastosis DNA polymerase should facilitate kinetic studies on the mechanism of DNA synthesis by this enzyme.
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PMID:On the fidelity of DNA replication. Enzyme activities associated with DNA polymerases from RNA tumor viruses. 5 14

Homogeneous DNA polymerase ("reverse transcriptase") from avian myeoblastosis virus was assayed for exodeoxyribonuclease activity. The substrates were defined template-initiator complexes in which different radioactive nucleotides were present at the 3'-OH termini of the initiator. Even when the number of molecules of enzyme was equal to the number of initiator termini there was no significant release of radioactivity with any of the template-initiator combinations tested. Under similar conditions, the nuclease activity associated with either Escherichia coli or T4DNA polymerases rendered more than 90% of the initiator termini acid-soluble. The ratio of exodeoxyribonuclease activity to protein with avian myeoblastosis DNA polymerase is less than 0.003% of that obtained with E. coli DNA polymerase I. Furthermore, avian myeloblastosis virus DNA polymerase failed to excise mispaired terminal nucleotides in both the presence and absence of polymerization.
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PMID:On the fidelity of DNA replication. Lack of exodeoxyribonuclease activity and error-correcting function in avian myeloblastosis virus DNA polymerase. 5 15

A study of the e determinant of hepatitis B surface antigen in an area of hepatitis B hyperendemicity revealed that the presence of e antigen or of antibody to e in the sera of individuals was specifically related to evidence of past or present infection with hepatitis B virus. Among asymptomatic long-term carriers of hepatitis B surface antigen, presence of the e antigen was associated with elevated levels of aspartate and alanine aminotransferases in serum; this observation suggested that the e antigen might be a marker for persisting hepatic dysfunction. Higher levels of DNA polymerase found in carriers of the surface antigen with e antigen suggested that these individuals might have a higher level of circulating Dane particles and thus, perhaps, a higher level of hepatitis B virus infectivity.
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PMID:Relation of e antigen to hepatitis B virus infection in an area of hyperendemicity. 5 11

The alpha beta DNA polymerase of avian myeloblastosis virus was treated with dimethyl sulfoxide to dissociate the enzyme subunits. The dimethyl sulfoxide treated enzymes were passed over phosphocellulose to purify and characterize the dissociated subunits as well as to remove the dimethyl sulfoxide. RNA-directed DNA polymerase, RNase H, and nucleic acid-binding activity were monitored, as well as the subunit structure (on sodium dodecyl sulfate-polyacrylamide gels) of the various enzyme species obtained. With 30% dimethyl sulfoxide, the majority of DNA polymerase and RNase H activities as well as the alpha subunit were displaced from the alpha beta DNA polymerase position on phosphocellulose (0.23 M potassium phosphate) to the alpha DNA polymerase position (0.1 M). The association of DNA polymerase and RNase H activities with the alpha subunit suggests that alpha is the enzymatically active subunit in alpha beta. In addition to alpha DNA polymerase, a minor polymerase species eluted from phosphocellulose at 0.4 M potassium phosphate. The dissociated beta subunit eluted from phosphocellulose at a wide range of salt concentrations (0.28 to 0.5 M potassium phosphate). The dissociated beta subunit bound 3H-labeled murine leukemia virus RNA and [3H]poly(dT)-poly(dA) approximately 20-fold more avidly than alpha DNA polymerase alone. In contrast to the results with the alpha subunit, there was no correlation between DNA polymerase and RNase H activity profiles and the elution profile of the beta subunit from phosphocellulose. These observations suggest the beta subunit is either enzymatically inactive or possesses limited DNA polymerase and RNase H activity when compared with the alpha subunit.
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PMID:Dissociation of alpha beta DNA polymerase of avian myeloblastosis virus by dimethyl sulfoxide. 5 61

The effect of bleomycin on [3H]thymidine 5'-triphosphate ([3H]TTP) incorporation into isolated sucrose nuclei from host liver and Morris hepatomas has been compared. Bleomycin stimulates [3H]TTP incorporation 13-fold in host liver and hepatoma 16 nuclei, 8-fold in hepatoma 7800 nuclei, and 3-fold in hepatoma 7777 nuclei. Differences in the nuclear membranes are not responsible for the different response of the nuclei. Nuclei, denuded of their membranes by Triton X-100 treatment, give similar results to sucrose nuclei. Analysis of DNA extracted from liver or hepatoma nuclei incubated with bleomycin indicates that bleomycin produces scissions in the nuclear DNA and that some repair synthesis takes place. Incubation of nuclei with 111indium-labeled bleomycin shows an equal binding capacity of liver and hepatoma nuclei for bleomycin. Bleomycin also stimulates incorporation of [3H]TTP in a system using chromatin or calf thymus DNA as primer. Host liver or hepatoma chromatin incubated with a DNA polymerase extracted from normal rat liver nuclei is stimulated approximately to the same extent by bleomycin. When DNA polymerase extracts from host liver and hepatoma nuclei are assayed with calf thymus DNA as primer, bleomycin has a greater stimulatory effect on [3H]TTP incorporation with host liver DNA polymerase than with hepatoma DNA polymerase in the system. We suggest that a defect in the repair system in hepatoma nuclei is responsible for the relatively lower response to bleomycin.
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PMID:Effect of bleomycin on [3H]Thymidine 5'-Triphosphate incorporation into host liver and hepatoma nuclei. 5 97

The RNA-directed DNA polymerase (deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase EC 2.7.7.7) of avian oncornavirus requires a tryptophan tRNA (tRNATrp) primer molecule located close to the 5' end of the viral RNA genome for the initiation of DNA synthesis in vitro. In this communication we demonstrate that the DNA product, transcribed from avian myeloblastosis virus (AMV) 35S RNA containing only tRNATrp as primer, is located also at the 5' end of the RNA genome. More importantly, we demonstrate that these 5' terminal DNA transcripts contain nucleotide sequences complementary to the 3' end of the genome. We have interpreted these results to mean that the genome. We have interpreted these results to mean that the 3' and 5' termini of the AMV 35S RNA genome become juxtaposed with each other either before or immediately after DNA synthesis has begun. These results are discussed in regard to the mechanism for synthesis of the circular forms of oncornavirus proviral DNA.
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PMID:Evidence for circularization of the avian oncornavirus RNA genome during proviral DNA synthesis from studies of reverse transcription in vitro. 5 20

Cocultivation of cells derived from embryos of golden pheasants or Amherst pheasants with chicken embryo cells infected with Bryan strain of Rous sarcoma virus resulted in the detection of viruses which appear to be endogenous in these pheasant cells. The pheasant viruses (PV) were similar to avian leukosis-sarcoma viruses (ALSV) in their gross morphology, in the size of their RNA, in the presence of a virion-associated RNA-dependent DNA polymerase (DNA nucleotidyltransferase; deoxynucleoside triphosphate: DNA deoxynucleotidyltransferase; EC 2.7.7.7), and in their growth characteristics. PV also serves as a helper for the glycoprotein-defective Rous sarcoma virus. However, PV was shown to be different from both ALSV and reticuloendotheliosis virus in the following properties: (i) PV does not have ALSV group specific antigens; (ii) the protein composition of PV is different from those of the other two groups of viruses; (iii) PV fails to complement the defective polymerase of alpha type Rous sarcoma virus; and (iv) PV RNA shows no detectable homology with nucleic acids of the other two groups of viruses. Thus, PV appears to be a new class of RNA viruses which contain RNA-dependent DNA polymerase.
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PMID:Pheasant virus: new class of ribodeoxyvirus. 5 21

The antibiotic bleomycin stimulates deoxyribonucleic acid (DNA) synthesis in toluene-treated Escherichia coli cells. The increase in synthesis is linear with bleomycin concentration. Bleomycin-stimulated DNA synthesis is independent of replication and dependent on DNA polymerase I. Replication is spared as the DNA polymerase I-dependent DNA synthesis increases. Bleomycin does not appear to have any effect on purified E. coli DNA polymerases I or II. Our results suggest that bleomycin causes nicking of the bacterial chromosome with subsequent DNA synthesis catalyzed by DNA polymerase I.
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PMID:Effect of bleomycin on deoxyribonucleic acid synthesis in toluene-treated Escherichia coli cells. 5 40

Measurement of DNA polymerase in leukaemic guinea-pig plasms reveals the presence of low levels of sedimentable and non-sedimentable enzymic activities. Since the sedimentable DNA polymerase is ribonuclease sensitive, uses poly(C).oligo(dG) as template, and bands in a sucrose density gradient at 1-17 g/ml it is thought to be the GPLV-associated reverse transcriptase. The soluble DNA polymerase is stimulated by ribonuclease and is probably of cellular origin.
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PMID:DNA polymerase activity in plasma from leukaemic guinea-pigs. 5 90

DNA polymerases alpha and beta from Molt-4 cells are inhibited by bleomycin, whereas DNA polymerase gamma assayed with poly-(A)-(dT)12-18 as the template primer or terminal deoxynucleotidyl transferase assayed with activated DNA, poly(dA), (dG)12-18 or (dA)12-18 as the initiator are not inhibited by this antibiotic. Inhibition by bleomycin increased the Km for template DNA but not that for dTTP. Increasing amounts of bleomycin did not affect the Vmax for DNA polymerase alpha or beta when the amount of template DNA was varied but it reduced the Vmax for these enzymes when dTTP was varied. Moreover, the addition of extra template reversed the bleomycin inhibition but the addition of extra enzyme did not. Although dithiothreitol was required for bleomycin inhibition of DNA polymerase activity, bleomycin preincubated with dithiothreitol (or beta-mercaptoethanol) at pH 6.5 to 9.0 lost its inhibitory activity. This was not the case when DNA was also included in the preincubation mixture. The results obtained in this study indicate that bleomycin inhibits DNA polymerases alpha and beta by a thiol reagent-dependent interaction with the template. Thus, the antitumor activity of bleomycin may be greatly influenced by the concentration of sulfhydryl compounds and their proximity to DNA in the target cells.
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PMID:Effect of bleomycin on deoxynucleotide-polymerizing enzymes from human cells. 5 22

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