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)

The microsomal supernatant fraction obtained from a murine cell line chronically infected with and producing Rauscher leukemia virus (JLSV-10) was found to contain two forms of RNA-directed DNA polymerase (reverse transcriptase). The two enzyme forms, neither of which is detectable in uninfected cells (JLSV-9), were initially partially purified by poly(C)-agarose chromatography, and their separation was achieved by phosphocellulose chromatography. The enzyme form eluting first from phosphocellulose (0.3 M KCl), designated PC I, was found to be identical in all parameters tested to that form isolated directly from purified virions. The second enzyme peak, designated PC II, eluted from phosphocellulose at 0.5 M KCl and was not detectable in purified virions. The PC II enzyme has a molecular weight, determined by velocity sedimentation, of approximately 109,000, as compared with 70,000 for the PC I enzyme, and could not be further dissociated by exposure to high salt or nonionic detergent. Mixing purified virion or PC I DNA polymerase with uninfected cells followed by fractionation did not produce the PC II form, suggesting that it is neither an artifact of purification nor the result of fortuitous complexing of reverse transcriptase with normal cellular component(s). Both PC I and PC II enzyme forms appeared antigenically similar to virion DNA polymerase, demonstrated identical divalent cation requirements for various template-primers, and were capable of copying heteropolymeric regions of rabbit globin mRNA. However, kinetic studies of heat inactivation revealed that the PC II enzyme was far more heat labile than the PC I form, which appeared identical to the virion enzyme in this respect. Furthermore, whereas the PC I and virion-derived reverse transcriptase copied poly(C).(dG)12-18 most efficiently at a template-to-primer molar nucleotide ratio of 25:1, the PC II enzyme preferred a ratio of 5:1 for optimal rates of poly(dG) synthesis. Therefore, by these criteria, there appear to exist two intracellular forms of reverse transcriptase in the JLSV-10 Rauscher leukemia virus-producing murine cell line.
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PMID:Resolution and characterization of intracytoplasmic forms of reverse transcriptase from Rauscher leukemia virus-producing cells. 7 32

RNA-directed DNA polymerase was purified from spleens of Balb/c and NMRI mice infected with Rauscher murine leukemia virus. The method includes cell fractionation and lysis of microsomal fraction, chromtography on Sephadex G-200 and phosphocellulose. Estimation of molecular weight from the sedimentation rate of the purified enzyme in a glycerol gradient was consistent with a structure containing one polypeptide with a molecular weight of 70,000. Purified RLV DNA polymerase from spleen could transcribe purified DNA polymerase from purified virions. This simple preparation method offers a procedure for large scale preparation of the RNA-directed DNA polymerase which can be used for synthesis of DNA complementary to mRNA.
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PMID:Purification of RNA-directed DNA polymerase from mouse spleen infected with Rauscher leukemia virus. 8 71

RNA-directed DNA polymerase was isolated from the liver, spleen, and myeloblasts of chickens that had been infected with virus of avian myeloblastosis. The enzyme was chromatographically purified from the myeloblasts and brought to about 1,000-fold concentration. The method consisted in cell fractionation, lysis of the microsomal fraction, chromatography on Sephadex G-200 and phosphocellulose, as well as ultracentrifugation in the glycerol gradient. The cellular DNA polymerases alpha and beta were clearly separated from the DNA polymerase of avian myeloblastosis virus and could be distinguished from one another by template-specific reactions. The viral DNA polymerase activities in the microsomal fractions of liver, spleen, and myeloblasts were compared with one another. The amount of avian myeloblastosis virus and related DNA polymerase recorded from the myeloblasts was about six times that in the liver and four times higher than that in the spleen. The procedure described, together with the use of cell fractionation and gel filtration, is an appropriate method for biochemical detection of avian oncorna viruses in cells.
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PMID:[Separation of cellular and viral DNA polymerase from oncornavirus infected chicken cells]. 9 56

Intracisternal A particles from mouse plasma cell tumors were isolated from microsomal vesiclels by detergent treatment and separated in linear sucrose gradients. Four peaks of DNA polymerase activities banding at densities of 1.30, 1.24, 1.20--1.22 and 1.13 g/cm3 were observed assaying on poly(rA).oligo(dT). Solubolized DNA polymerases of the 1.30 g/cm3...
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PMID:DNA polymerases from intracisternal A-type particles on the mouse plasmacytoma MPC 11. 84 44

We have evaluated the problem of autoantibodies such as antinuclear antibodies (ANA), smooth muscle antibody (SMA) and antibodies to thyroid microsomal (TMA) and to thyroglobulin (TGA) related to interferon therapy in 27 patients with chronic hepatitis B. Anti-interferon antibody was also studied by Western blot method. Eight patients had ANA and 2 had SMA during interferon therapy. However, 6 of the 8 patients were ANA positive and one of the 2 was SMA positive prior to interferon treatment. No patients developed TMA, TGA or anti-interferon antibody. Eight (29.6%) of the 27 patients had clearance of both DNA polymerase and HBeAg and persistent normalization in alanine aminotransferase levels with interferon therapy. Seven of the 8 responders developed none of the autoantibodies related to interferon therapy. These results suggest that the presence of ANA or SMA during treatment may affect the therapeutic response to interferon.
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PMID:[Autoantibodies related to interferon therapy in chronic hepatitis B may affect the therapeutic response to interferon]. 172 18

We previously reported purification of two forms of DNA polymerase epsilon from calf thymus (Crute, J. J., Wahl, A. F., and Bambara, R. A. (1986) Biochemistry 25, 26-36). We have now used the "polymerase trap" photolabeling method to identify the polypeptides containing the polymerase active site in each enzyme preparation. The molecular mass of these polypeptides are 210 and 145 kDa for the polymerases now designated epsilon and epsilon*, respectively. Renaturation of polymerase activity from denaturing gel electrophoresis corroborates the polymerase trap results. Photolabeling of polymerase fractions suggests that the smaller subunit is derived by proteolysis of the larger subunit during purification. Native sedimentation coefficient measurements of polymerase-containing column fractions further suggest a precursor/product relationship between the two polymerases. Response of polymerization activity to a battery of inhibitors normally used to distinguish mammalian nuclear DNA polymerases was found to be essentially identical for polymerases epsilon, epsilon*, and the epsilon* generated in fractions initially containing epsilon. These latter results demonstrate that the loss of the protease-sensitive domain of the active site subunit does not affect catalytic function as measured in a standard DNA polymerase assay. The sole apparent functional difference observed here between the epsilon and epsilon* forms is evidence that only the full-length epsilon form can be directly photocrosslinked to dATP, independent of DNA synthesis. Photolabeling of the post-microsomal supernatant fraction from thymus glands obtained from fetal calves reveals the presence of both the epsilon and epsilon* polypeptide.
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PMID:Structural relationships between two forms of DNA polymerase epsilon from calf thymus. 174 Apr 47

We demonstrate a successful induction of DNA single strand breaks in CHO-K1 cells by cocultivation with mouse embryonic fibroblasts (MEF) during exposure to benzo(a)pyrene (BP) or 3-methylcholanthrene (MC). When compared to those induced by methyl methanesulfonate (MMS), the DNA single strand breaks induced by BP and MC were markedly accumulated by post-incubation with cytosine arabinoside (araC) and were much more delayed in their rejoining. These results suggest that the active metabolites of BP or MC produced by cocultivation with MEF or microsomal fraction (S-15) result in the formation of large DNA adducts which require an active participation of DNA polymerase alpha(delta) in the polymerization step of excision repair for their removal.
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PMID:Accumulation of polycyclic aromatic hydrocarbon-induced single strand breaks is attributed to slower rejoining processes by DNA polymerase inhibitor, cytosine arabinoside in CHO-K1 cells. 200 53

1. Aphidicolin is shown to undergo rapid metabolism by rat-liver microsomes resulting in its inactivation and loss of its DNA polymerase alpha/delta inhibition. Metabolism of aphidicolin was not observed with cytosolic enzymes of rat liver and was inconsistent with the involvement of microsomal 3 alpha-hydroxysteroid oxidoreductases. 2. Rates of aphidicolin inactivation as a function of microsomal enzyme induction (per nmol cytochrome P-450) followed the order: untreated microsomes greater than dexamethasone-induced greater than phenobarbital-induced greater than beta-naphthoflavone-induced greater than clofibrate-induced. 3. The principal metabolic process, constituting greater than 90% of the metabolic profile, produces 3-ketoaphidicolin 2, which exhibits approximately 10% of the activity of aphidicolin in inhibition of DNA polymerase alpha. This metabolic transformation, the oxidation of an alcohol to a ketone, is an unusual, but not unique conversion, for cytochrome P-450. 4. 3-Ketoaphidicolin 2 is an intermediate and ultimately undergoes 18-dehydroxymethylation to produce 18-noraphidicolinones 3, which are inactive in the inhibition of DNA polymerase alpha. 5. A specific constitutive cytochrome P-450 isozyme, involved in endogenous steroid regulation, was implicated as the species responsible for aphidicolin metabolism in vitro.
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PMID:The mechanism of aphidicolin bioinactivation by rat liver in vitro systems. 211 Jul 2

Metabolic activation of cyclophosphamide (CP) by microsomal mixed function hydroxylases yields 4-hydroxycyclophosphamide and aldophosphamide defined as activated CP. Activated CP shows relatively high cancerotoxic selectivity in vivo and cytotoxic specificity in vitro and can be trapped rapidly by reversible reaction of hemiaminal group of the oxazaphosphorine ring with protein thiols to form protein bound activated CP (protein-S-CP). Protein-S-CP stores activated CP in a highly stable form. From pharmacokinetics of activated CP in mice after the injection of cyclophosphamide, it was calculated that about 17% of the CP dose given was stored in a pool of protein bound activated CP lasting for several days. From therapy studies with 4-(S-ethanol)-sulfido-CP in combination with excess of cysteine, it was concluded that the protein-S-CP pool may be that form of activated CP which is mainly responsible for the specific cytotoxic effects in the tumor cells. On the other hand free unbound 4-OH-CP was shown to contribute mainly to overall toxicity. No spontaneous toxicogenation of activated CP was noted under in vivo conditions. 3'-5' Exonucleases were found to hydrolyze 4-OH-CP, yielding phosphoramide mustard and acrolein as split products. Because of the low affinity of 4-OH-CP for plain 3'-5' exonucleases, it seems however unlikely that these enzymes play a major role in the antitumor effect of CP in vivo. 3'-5' Exonucleases associated to DNA polymerase like in DNA polymerase delta from rabbit bone marrow or in DNA polymerase I from E. coli are more likely candidates for 4-OH-CP toxicogenation because of the much higher specific activity with 4-OH-CP as substrate. In experiments with DNA polymerase I from E. coli, 4-OH-CP was shown to inhibit DNA polymerase activity after toxicogenation by the 3'-5' exonuclease subsite of the enzyme. This suggests an enzyme mechanism based suicide inactivation of the DNA polymerase. Because of the close spatial cooperation of the DNA polymerase and 3'-5' exonuclease subsites with primer/template a site-specific alkylation of DNA is also postulated. Thus we raised the hypothesis that cytotoxic specificity of activated CP is based on the interaction of protein-S-CP (protein bound activated CP) with DNA polymerase/3'-5' exonuclease as the target. In a P 815 mouse mast-cell tumor we determined by means of 5' AMP agarose affinity chromatography two/third of total DNA polymerase to be associated with 3'-5' exonuclease.
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PMID:The enzymatic basis of cyclophosphamide specificity. 302 54

RNase-sensitive DNA polymerase activity (RSDP) was tested in different cell fractions of Neurospora crassa cell types and its morphological mutants. This RSDP was found localized in the microsomal pellet fraction and absent in the purified nuclear pellets isolated from different N. crassa cell types: conidia, germinated conidia, and mycelia. This enzyme is capable of synthesizing a DNA product only in the presence of all four deoxyribonucleoside-5' - triphosphates and Mg2+. Removal of RNA from the pellet fraction by RNase strongly inhibited the DNA synthesis. The endogenous synthesis of DNA in the microsomal pellet fraction was associated with the formation of an RNA:DNA hybrid as analyzed by Cs2SO4 equilibrium density gradient centrifugation. The DNA product after alkali hydrolysis hybridizes with the RNA isolated from the same pellet fraction, as analyzed by elution from hydroxylapatite column at 60C. This DNa product did not hybridize with poly (A). A few mutants tested showed this RNase-sensitive DNA polymerase activity.
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PMID:RNase-sensitive DNA polymerase activity in cell fractions and mutants of Neurospora crassa. 616 50

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