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)

Two lines of the 6C3HED (Gardner lymphosarcoma), 6C3HED-LeP and 6C3HED-ADL, were studied. The former is exquisitely sensitive to 9-beta-D-arabinofuranosyladenine (ara-A) and the latter is resistant. Cytological examinations and strain specificity tests indicated that they are both 6C3HED. DNA synthesis in the sensitive line was found to be more sensitive to ara-A in whole-cell incubations than it was in the resistant line. In cell-free extracts, the DNA synthesis of the sensitive line showed greater inhibition by 9-beta-D-arabinofuranosyladenine 5'-triphosphate. Lower ability to form 9-beta-D-arabinofuranosyladenine 5'-triphosphate or to allow access to the intracellular space was eliminated as an explanation for the resistance. Cells from an ara-A-resistant human leukemia were tested, and the DNA synthesis of the cells, in either whole cells or cell-free extract, was unaffected by ara-A or 9-beta-D-arabinofuranosyladenine 5'-triphosphate, respectively. This suggests that resistance has emerged by reason of change in the DNA polymerase(s) and that the finding may be important in the clinical use of ara-A.
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PMID:Resistance to 9-beta-D-arabinofuranosyladenine in murine tumor cells. 58 Sep 2

A new technique which detects the presence of DNA polymerase and primer-template DNA by measuring the in vitro incorporation of [3H]thymidine-5-triphosphate (3H-TTP) into nuclei of leukaemic blast cells (LBC) was used in 35 patients with acute leukaemia. The 3H-TTP labelling index (3H-TTP LI) exceeded the fraction in DNA synthesis by a factor 1.4-24.3. The values of 3H-TTP labelling in the bone marrow always exceeded those obtained in the blood. In addition 10 normal bone marrows were studied; here, the 3H-TTP LI either exceeded or equalled the fraction of the proliferative pool in DNA synthesis.
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PMID:Nuclear labelling of leukaemic blast cells with tritiated thymidine triphosphate in 35 patients with acut leukaemia. 60 74

The rational design of antitumor and antiviral agents must ultimately take advantage of biochemical differences between normal host cells and transformed cells. The initial experiments must be performed with subcellular or cellular model systems. For the studies with arabinosyl nucleosides we have chosen those enzyme systems, synthesizing DNA and RNA; being precursor analogues, the different arabinosyl nucleosides have been added in the triphosphate state to the different DNA- and RNA polymerase assays. 1-beta-D-Arabinofuranosylcytosine-5'-triphosphate has been found to inhibit the RNA-dependent DNA polymerases (isolated from oncogenic RNA viruses) 200-fold more sensitively than viral and cellular DNA-dependent DNA polymerases. Recent results, showing that RNA-leukemia-virus-related sequences are present in DNA of some human leukemia patients might support the assumption that the efficacy of this antimetabolite in the treatment of acute leukemia is due to its, at least relative selective inhibitory activity on reverse transcriptase. 9-beta-D-Arabinofuranosyladenine-5'-triphosphate is a strong inhibitor of cellular DNA polymerases with the cytological consequence of an inhibition of cell proliferation. The clinical benefit of the compound in treatment of tumors is dependent on their levels of adenosine deaminase. The triphosphate of this compound is a 100-fold more sensitive inhibitor of the herpesvirus DNA polymerase compared to the cellular replicative DNA polymerase. In addition the analogue, incorporated into herpesvirus DNA, acts as chain terminator. These effects are the biochemical basis for the highly selective antiherpesvirus activity of this antimetabolite. The anomer 9-alpha-D-arabinofuranosyladenine-5'-triphosphate only inhibits cellular replicative DNA polymerase and has no effect on herpesvirus DNA polymerase. Consequently this agent acts only cytostatically and not antivirally. Concerning 1-beta-D-arabinofuranosyluracil and 1-beta-D-arabinofuranosylthymine no pronounced antitumor or antiviral effect is known.
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PMID:Rational design of arabinosyl nucleosides as antitumor and antiviral agents. 61 2

DNA was isolated from mouse brain after in vivo gamma-ray irradiation, treated with endonuclease S1 from Aspergillus oryzae if necessary, and analysed further by alkaline and neutral sucrose gradient centrifugation. In parallel, its template activity was determined by DNA polymerase (EC 2.7.7.7, enzyme A of Klenow from Escherichia coli) assay as described previously. Similar experiments were performed with cultured mouse leukaemia cells (L5178Y) irradiated in vitro at 0 degrees C. Irradiation induced single- and double-strand breaks in the DNA of the brain with a yield of 1.0 and 0.1 break per 10(12) dalton per rad (100 eV/break and 770 eV/break), respectively. The yield of single-strand breaks in the brain was lower than that found in the cultured cells, whereas the yield of double-strand breaks was found to be almost the same in both cases. Treatment of irradiated DNA with single-strand-specific S1 endonuclease gave rise to further breaks detected on neutral sucrose gradient analysis. The yield of these breaks was also higher in the brain compared to the cultured cells. The increase per unit dose in the template activity of the DNA from the brain was found to be five times as much as that found in the cultured cells. Then, the average number of deoxyribonucleotides incorporated per break was determined on DNA which had experienced different treatments. The value for the brain DNA irradiated in vivo was found to be five times as much as that found for DNA treated with pancreatic deoxyribonuclease and 10 times as much as those found for DNA from the cultured cells and isolated brain nuclei irradiated in vitro at 0 degrees C. Thus, in vivo irradiation seemed to induce gaps with 3'-OH terminals in addition to simple breaks with or without 3'-OH terminals found in the cultured cells. Radiation-induced single-strand breaks and 3'-OH terminals in the DNA of the brain were repaired following irradiation. Approx. 20--40% of the terminals or breaks induced were, however, remaining at 3 h or more after irradiation, depending on the dose administered.
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PMID:Induction and repair of strand breaks and 3'-hydroxy terminals in the DNA of mouse brain following gamma irradiation. 71 24

The 490 quinone, a natural sulfhydryl-arylating reagent from the mushroom, Agaricus bisporus, markedly inhibited L1210 murine leukemia DNA polymerase alpha while resulting in little inhibition of DNA polymerase beta from this source. This quinone was more strongly inhibitory than p-chloromercuri-benzoate or N-ethylmaleimide and was less readily neutralized by sulfhydryl-containing molecules such as dithioerythritol. Preliminary experiments indicate that DNA protects DNA polymerase alpha from inhibition by the 490 quinone. The inhibition of DNA synthesis by quinone 490 may contribute significantly to the cytotoxicity of this compound and to the potential of gamma-L-glutaminyl-4-hydroxybenzene as an antitumor agent.
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PMID:Inhibition of DNA polymerase from L1210 murine leukemia by a sulfhydryl reagent from agaricus bisporus. 83 67

A total of 18 compounds consisting of 7 alphatic and 7 aromatic bis(guanylhydrazones), p-quinone-bis(guanylhydrazone), one monoguanylhydrazone, one diamidine and one diguanidine were studied spectrophotometrically to determine their ability to interact with native calf-thymus DNA and the possible correlation of binding with biological activity. In each case, the ability of a compound to bind to DNA correlate with its ability to inhibit the activity of DNA-dependent DNA polymerase (EC 2.7.7.7) extracted from mouse leukemia L1210 cells. For example, all the aromatic bis-guanylhydrazones and diamidine (hydroxystilbamidine), which were good inhibitors of the enzyme activity, showed a biphasic interaction with DNA. All the aliphatic compounds displayed no detectable interaction with DNA in the Tris buffer used, and were also poor inhibitors of the polymerase activity. Interaction of decamethylene diguanide (Synthalin with DNA could not be determined because the compound does not absorb light in the UV-VIS region. However, in similarity with other aliphatic compounds, this agent was a poor inhibitor of DNA polymerase reduction. The p-quinone-bis(guanyl-hydrazone) and p-phenylbenzaldehyde-monoguanylhydrazone showed only a monophasic interaction with DNA and caused an intermediate inhibition of the enzyme activity. When tested for possible anti-leukemic activity against i.p. L1210 leukemia in syngeneic DBA/2J mice, all the aromatic bis-guanylhydrazones as well as hydroxystilbamidine caused prolongation of survival of tumor-bearing mice. Among the aliphatic bisguanylhydrazones, all of which showed no binding to DNA and caused at the most only a very slight inhibition of DNA polymerase, only methylglyoxal-bis(guanylhydrazone) (CH3--G) had antileukemic activity. Synthalin also inhibited leukemia growth. Evidences presented indicate that the mechanisms of action of aliphatic and aromatic bisguanylhydrazones may be quite different. Furthermore, the ability to bind to DNA may be a useful criterion to predict the antileukemic activity of aromatic guanylhydrazones and possibly other aromatic-bis-cationic compounds, but not that of aliphatic congeners.
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PMID:Studies on the structure--activity relationship among aliphatic and aromatic bisguanylhydrazones and some related compounds. 83 65

DNA polymerase gamma has been purified over 60 000-fold from HeLa cells which contain no detectable type C viral particles. This purified enzyme shows a specific activity of 25 000 units/mg of protein which is comparable to the known specific activity of homogeneous preparations of human alpha and beta polymerases. The isolated enzyme shows apparent molecular weights ranging from 160 000 to 330 000 according to the method of analysis. The enzyme exhibits optimal activity for copying poly(A) in the presence of 50 mM KPO4 and 130 mM KCl and, under these conditions, copies poly(A) 20 times more rapidly than activated DNA. These assay conditions permit a clear distinction between the gamma-polymerase and DNA polymerase beta which is markedly inhibited by phosphate at this concentration. A comparison of the copying of activated DNA, poly(dA) and poly(A) by DNA polymerases alpha, beta, and gamma under optimal assay conditions for each enzyme is presented. Studies with synthetic and natural nucleic acid templates also show the gamma-polymerase to behave differently that the reverse transcriptases of avian myeloblastosis virus or Rauscher leukemia virus.
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PMID:HeLa cell DNA polymerase gamma: further purification and properties of the enzyme. 97 75

Cytembena, at low concentrations, caused an inhibition of the in vitro growth of L1210 mouse leukaemia cells which could not be reversed by reduced folates, purines, amino acids or deoxyribonucleosides. Invitro experiments with a number of enzymes of folate metabolism produced no evidence that this drug acts as an anti-folate in mammalian tumor colls. However, Cytembena, in therapeutic doses, caused a rapid and extensive inhibition of DNA biosynthesis. There was no inhibition of RNA biosynthesis, but at high doses some inhibition of protein biosynthesis was observed. Deoxyribonucleoside triphosphates accumulated in the presence of Cytembena, suggesting that the inhibition of DNA biosynthesis was at the polymerization stage. However, in vitro experiments failed to demonstrate any direct interaction of Cytmebena with either DNA or DNA polymerase.
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PMID:Aspects of the biochemical pharmacology of cytembena. 108 May 53

The possible existence of several species of DNA-dependent DNA polymerases in mammalian cells in addition to those 2 polymerases which are the smaller enzyme from nucleus and larger one from cytoplasm each having distinct characteristics, have been reported recently. In order to examine the heterogeneity of DNA polymerases in murine leukemia L1210 cells and to characterize their general properties, we have attempted to separate the DNA polymerase activities from L1210 cells. By diethylaminoethyl (DEAE)-cellulose chromatography (0.2 M-1M KCl) of the whole cell extract from L1210 solubilized by 1% Triton X-100 and 0.5 mM ethylenediaminetetraacetate (EDTA), 4 fractions with DNA-dependent DNA polymerase activities were obtained and designated as DD-1, DD-2, DD-3, and DD-4 for eluents with each corresponding concentration of 0.2, 0.3, 0.5, and 0.7 M KCl, respectively. They were distinguishable in properties such as template preference, divalent cation requirement, DNase sensitivity, isoelectric point (pI) and the behavior on the phosphocellulose chromatography. DD-1 preferred native DNA as template exhibiting similar characteristic as nuclear polymerase with low molecular weight and insensitivity to SH-inhibitors. DD-2, DD-3, and DD-4 utilized activated DNA most efficiently, while activity of DD-3 increased even in the presence of DNase 1 under the condition where the others were completely inhibited. Distribution of DNA polymerase activities in the cells is discussed briefly.
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PMID:Separation and properties of DNA polymerase from murine leukemia L1210 cells. 117 38

We have compared the relative inhibitory activity of poly (A) with its analogues poly N6-isopentenyl adenylic acid (poly(i6 A)) and poly N6-benzyl adenylic acid (poly(bzl6A)), and of poly (U) with its analogue poly 2'-fluoro-2'-deoxyuridylic acid (poly(dUfl)), against DNA polymerase, alpha, beta and gamma and terminal deoxynucleotidyl transferase from human cells and two oncorna virus DNA polymerases. Although poly (A) and its analogues were equally inhibitory against endogenous RNA-directed DNA polymerases of murine and feline leukemia viruses, the analogues in contrast to poly (A) were strongly inhibitory against all four cellular enzymes. Poly (dUfl), on the other hand, was up to 100-fold more potent than poly (U) against both viral and cellular enzymes. Since poly (U) at 100 mug/ml and poly (dUfl) at 1 mug/ml had no effect on terminal deoxynucleotidyl transferase while inhibiting other enzymes by 80--100 per cent these polymers could be useful in the characterization and assay of terminal deoxynucleotidyl transferase. In addition, the polymers such as poly (igA) and poly (bzl5A) which were strongly inhibitory to all cellular enzymes, could be useful in cancer chemotherapy if taken up preferentially by the malignant calls due to their high pinocytic activity. The results also demonstrate potential for large variation in inhibitory activity of polyribonucleotides as related to their chemical composition.
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PMID:Modified nucleotide polymers as inhibitors of DNA polymerases. 119 5

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