Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The cytoplasmic extracts of human prostatic tissues yield two classes of "particles" when centrifuged to equilibrium in a sucrose density gradient, one class banding at a density of 1.15-1.18 g/cm3 ("high density particles") and another at a density of 1.07-1.14 g/cm3 ("low density particles"). Both bands display endogenous DNA polymerase activity which is largely resistant to actinomycin D inhibition. The endogenous DNA products synthesized by high density particles give some indication of high molecular weight RNA:DNA complexes. The tissue extracts from normal, hyperplastic, and neoplastic prostate behave similarly in these assays. In addition, explant cultures of hyperplastic and neoplastic prostate either release, or can be induced to release, particles by treatment with bromodeoxyuridine. These particles band at a density of 1.15-1.18 g/cm3 in a sucrose density gradient and possess RNA and associated DNA polymerase activity which utilizes poly(A):oligo(dT). Our results suggest that human prostatic tissues may contain functions analogous in some ways to those of known RNA tumor viruses of other species.
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PMID:RNA tumor virus-like activities in human prostate: possible novel pharmacologic approaches. 6 16

An antiserum has been prepared against a highly purified DNA polymerase gamma from NC37 cells, a normal human lymphoblast cell line. The antiserum does not possess enzyme neutralizing activity, but does bind specifically to DNA polymerase gamma. When tested in a double antibody immunoprecipitation assay, the antibody does not cross-react with DNA polymerases alpha or beta, purified from NC37 cells, or with reverse transcriptases of avian, murine, or primate RNA tumor viruses. Antisera prepared against purified reverse transcriptases similarly do not recognize DNA polymerase gamma, either in an enzyme neutralization assay or in the more sensitive double antibody immunoprecipitation assay. The availability of an antiserum to DNA polymerase gamma will allow the further characterization of enzyme activities isolated from cellular material and suspected of being related to viral reverse ttranscriptases. In those cases where such activities do not immunologically resemble known viral DNA polymerases, the anti-DNA polymerase gamma will help determine the viral or cellular nature of the unknown activity.
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PMID:Serological analysis of cellular and viral DNA polymerases by an antiserum to DNA polymerase gamma of human lymphoblasts. 6 38

Northern poke lymphosarcoma DNA polymerase was partially purified from particulate fractions banding at 1.15 to 1.16 g/ml from homogenates prepared from frozen necropsies of tumor-bearing pike. The enzyme behaves as a typical reverse transcriptase, in that it prefers ribotemplates to deoxytemplates. The isoelectric point (pl 5.5) is similar to that of avian myeloblastosis virus polymerase. The pike enzyme elutes from a phosphocellulose column at 0.22 M potassium phosphate, the same as avian myeloblastosis virus DNA polymerase. The enzyme activity is inhibited by pyran, a specific inhibitor of viral DNA polymerases. The most striking difference between the pike lymphoma polymerase and the other viral DNA polymerases tested is the low maximum temperature of 20 degrees, compared to 30 degrees for Rauscher leukemia virus polymerase and 38 degrees for avian myeloblastosis virus and Rous sarcoma virus.
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PMID:Presence of DNA polymerase in lymphosarcoma in northern pike (Esox lucius). 6 92

A 32,000-dalton protein (p32) located in avian retrovirus cores was immunoprecipitated from [35S]methionine-labeled avian myeloblastosis virus (AMV) propagated in cultured chicken embryo fibroblast cells by an antiserum preparation (sarc III) derived from tumor-bearing hamsters injected with cloned and passaged cells from an avian sarcoma virus-induced primary hamster tumor. Since sarc III serum apparently contained antibodies only to virus-coded proteins and not to chicken cellular proteins, the immunoprecipitation of p32 from AMV by sarc III serum strongly suggested that p32 is virus coded. The origin of p32 was more definitively established by demonstrating the existence of a structural relationship between p32 and the AMV DNA polymerase. AMV p32 cross-reacted with the beta polypeptide of AMV alphabeta DNA polymerase in radioimmunoprecipitation and radioimmunoprecipitation inhibition assays, indicating that p32 and beta share common antigenic determinants. This relationship was clarified by sodium do-decyl sulfate-polyacrylamide gel electrophoretic analysis of the peptides generated by limited proteolysis of 125I-labeled AMV DNA polymerase polypeptides and of 125I-labeled AMV p32 by chymotrypsin or Staphylococcus aureus V-8 protease. The peptides which appeared during proteolytic digestion of p32 were a subset of those produced by digestion of the beta polypeptide; however, p32 had no discernible peptides in common with the alpha polypeptide. Further, all of the peptides produced by limited proteolysis of beta were present in the digests of either p32 or alpha. Our findings suggest that p32 is apparently derived by cleavage of the beta polypeptide of AMV DNA polymerase, presumably at a site near or identical to that at which alpha is generated from beta by proteolytic cleavage.
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PMID:Virus-coded origin of a 32,000-dalton protein from avian retrovirus cores: structural relatedness of p32 and the beta polypeptide of the avian retrovirus DNA polymerase. 8 16

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

For attempt to detect an etiological agent, cultures from bovine lymphosarcoma cases (adult form (ALS), calf form (CLS), and thymic form (TLS) were maintained in vitro for over a 18 month period. In two cultures from ALS, bovine leukemia virus (BLV) antigen was constantly detected. On the other hand, BLV antigen remained negative in cultures from two CLS and one TLS cases up to 40 passages. The RNA dependent DNA polymerase activities in these cultures were also negative. Treatment of a culture from CLS (3178) originated from liver tumor with 5'-iodo-2'-deoxyuridine (IdU) and dexamethasone (DXM) resulted in production of an agent serologically and morphologically similar to BLV and in alteration of cell morphology. No virus was detected in culture from TLS after treatment with IdU and DXM.
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PMID:Induction of C-type virus in cell lines derived from calf form bovine lymphosarcoma. 8 38

Samples of three nonmalignant and seven leukemic human cells were examined for DNA polymerase activity that could be identified as RNA tumor virus reverse transcriptase. Experiments on virus-infected model animal cells provided the basis for cell fractionation procedures, and reconstituted systems of known virus, added to human cells, established a threshold of virus detection by enzyme assay at 1 to 10 particles/cell. DNA polymerase activity with some properties similar to a reverse transcriptase was detected in some of the human leukemic cells. However, parallel analyses of nonmalignant cells showed sufficient similarities to raise serious questions about the specificity of the criteria. Reverse transcriptase activity has been reported to be present in white blood cells from a proportion of cases of leukemia; however, it is concluded from the present study that the usual enzymatic criteria using synthetic template primers, which were used in most of the studies reported, are not sufficient to identify a DNA polymerase activity as viral reverse transcriptase.
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PMID:Detection of reverse transcriptase activity in human cells. 8 60

Benzophenanthridine alkaloids, fagaronine 4, O-methylfagaronine 5,nitidine 1, allonitidine 3 and methoxydihydronitidine 2 have been shown to possess inhibitory activity against reverse transcriptase of RNA tumor viruses. The enzyme inhibition (50%) by these alkaloids was found in the range of 6-60 microgram per milliliter of the reaction mixture when polynucleotide-oligodeoxynucleotide complexes were used as template primers. The results suggested that the benzophenanthridine alkaloids interacted with the template primers (particularly of the A:T base pairs) and not with the enzyme proteins. Kinetics reaction of the reverse transciptase inhibition showed that the alkaloids stopped the DNA polymerase synthesis instantly, probably by interacting with the template primer.
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PMID:Inhibition of reverse transcriptase activity by benzophenanthridine alkaloids. 8 1

An RNA-directed DNA polymerase was purified from a cell line derived from a radiation-induced lymphoma in NIH Swiss mice which produced non-infectious type C virus particles. The enzyme was isolated from a high speed particulate fraction which bands at a density of 1.16--1.19 g/ml in a sucrose gradient, and purified by successive chromatography on DEAE-cellulose, phosphocellulose and hydroxyapatite. The purified DNA polymerase has a molecular weight of 68 000, a pH optimum of 7.5, a KCl optimum of 50 mM, and a Mn2+ optimum of 0.25 mM. It prefers (dT)15 . (A)n to (dT)15 . (dA)n as the primer template and transcribes the poly(C) strand of (dG)15 .(C)n and (dG)15 . (OMeC)n. It transcribes heteropolymeric regions of avian myeloblastosis virus 70 S RNA, and is inhibited by antiserum to Rauscher murine leukemia virus DNA polymerase. Comparison of the properties of DNA polymerase purified from radiation-induced lymphoma cells with the DNA polymerase purified from non-defective murine type C RNA tumor viruses shows that the mouse lymphoma enzyme is both biochemically and immunologically related to murine leukemia virus DNA polymerases.
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PMID:Characterization of an RNA-directed DNA-polymerase from a cell line derived from a radiation-induced lymphoma in mice. 9 May 22

Benzophenanthridine alkaloids, fagaronine 4, O-methylfagaronine 5, nitidine 1, allonitidine 3 and methoxydihydronitidine 2 have been shown to posses inhibitory activity against reverse transcriptase of RNA tumor viruses. The enzyme inhibition (50%) by these alkaloids was found in the range of 6-60 microgram per milliliter of the reaction mixture when polynucleotide-oligodeoxynucleotide complexes were used as template primers. The results suggested that the benzophenanthridine alkaloids interacted with the template primers (particularly of the A:T base pairs) and not with the enzyme proteins. Kinetics reaction of the reverse transciptase inhibition showed that the alkaloids stopped the DNA polymerase synthesis instantly, probably by interacting with the template primer.
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PMID:Inhibition of reverse transcriptase activity by benzophenanthridine alkaloids. 9 65


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