Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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

The induction of erythroid differentiation in the T3-C12 clone of Friend leukemia cells by dimethyl sulfoxide is accompanied by reduction in viral RNA-dependent DNA polymerase activity with increased cellular delta-aminolevulinic acid synthetase activity and hemoglobin synthesis. These cells were treated with a variety of compounds to determine whether other durgs are capable on inducing erythroid differentiation. While several hormones, inhibitors of RNA synthesis, organic solvents, inhibitors of DNA polymerase, sulfhydryl inhibitors, and inducers of delta-aminolevulinic acid synthetase administered singly did not stimulate hemoglobin synthesis like dimethyl sulfoxide, inhibitors of DNA and RNA synthesis such as adriamycin, mitomycin C, and hydroxyurea:mithramycin were synergistic in stimulating erythroid differentiation.
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PMID:Erythroid differentiation in cultured Friend leukemia cells treated with metabolic inhibitors. 5 26

We have examined the location, structure, and mechanism of synthesis of unintegrated viral DNA present in fully transformed cultures of avian sarcoma virus-infected duck cells. De novo synthesis of the unintegrated forms several weeks after the initial infection was documented by labeling unintegrated DNA in both strands with 5-bromodeoxyuridine. The unintegrated DNA is synthesized in, and probably confined to, the cytoplasm, and it consists of duplexes of short "plus" strands (ca. 0.5 X 10(6) to 1.0 X 10(6) daltons) and "minus" strands the length of a subunit of the viral genome (ca. 2.5 X 10(6) to 3.0 X 10(6) daltons). The structure of the duplex and the mode of incorporation of density label support the hypothesis that the unintegrated DNA is synthesized from an RNA templated by virus-coded DNA polymerase.
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PMID:Unintegrated viral DNA is synthesized in the cytoplasm of avian sarcoma virus-transformed duck cells by viral DNA polymerase. 5 74

We have compared the relative merits of several procedures for the isolation of RNA-directed DNA polymerase (EC 2.7.7.7.) from cells using a reconsituted model system consisting of a mixture of woolly monkey (simian) sarcoma virus and a cultured human lymphoblastoid cell line, NC-37. When the cell-virus mixture was gently disrupted and fractionated by differential centrifugation, most of the added polymerase was recovered associated with a particulate fraction obtained from the post-mitochondrial supernatant. Purification of the polymerase was best achieved starting from this fraction. The particulate fraction itself can be purified by gel filtration through a Sepharose 2 B column. This procedure did not significantly alter the composition of viral and cellular DNA polymerases. Whereas as little as 7.5 - 10(5) viral particles were sufficient for the detection of RNA-directed DNA polymerase activity, a minimum of about 10(11) particles were necessary for the isolation and unequivocal characterization of the enzyme from the cell-virus mixture by subcellular fractionation and chromatographic separation from cellular DNA polymerases. Purified RNA-directed DNA polymerase had the same primer-template characteristics, sedimentation properties, and immunological cross reactivity as the enzyme purified from density gradient-banded virions of simian sarcoma virus. Methods involving total extraction of the cell-virus mixture either by repeated freezing and thawing followed by detergent treatment or by Dounce homogenization and treatment with high salt and detergent failed to provide RNA-directed DNA polymerase free of cellular DNA polymerases. Because of this, low levels of cellular RNA-directed DNA polymerase may be missed when these approaches are used.
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PMID:A comparative evaluation of methods for isolation of RNA-directed DNA polymerase from cells in a reconstituted system. 5 69

In the post-mitochondrial fraction of murine LBN/b leukemic cells, four fractions with DNA polymerase activity (I, II, III, IV) were found. On the basis of ion exchanger affinity and poly(A), poly(C) and poly(Cm) replication ability, fraction I was classified as RNA-directed DNA polymerase of viral origin. On the basis of the differences in the ion exchanger affinity, molecular weight, template requirement, pH-dependence of enzymatic activity and NaCl concentration, divalent ion requirements and susceptibility to N-ethylmaleimide inhibition, fractions II, III and IV were classified as DNA-directed DNA polymerases beta, alpha and gamma, respectively. Three fractions, i.e. reverse transcriptase, and DNA-directed DNA polymerases beta and gamma, were found to incorporate dTMP on a poly(A)-oligo(dT) template-primer. Despite the similarity of the reaction of DNA polymerases beta and gamma with poly(A)-oligo(dT), some other properties of these enzymes suggest that they represent distinct enzymatic entities.
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PMID:DNA polymerases of murine LBN/b leukemic cells. 5

The possible role of DNA polimerase III in conjugation was studied in a series of mutants temperature-sensitive for DNA polymerase III synthesis. The temperature-sensitive DNA mutation called dnaE 486 (ts) prohibits vegetative DNA replication at 41-45 degrees. Transfer of episome and chromosome from temperature-sensitive donor, carrying dnaE mutation to wild-type recipient strains, revertants and dnaE recipients was investigated. In the first two cases the number of Lac+ sexductants being even slightly higher at 43 degrees. Conjugational synthesis accompanying transfer involving the combination of dnaE (ts) thymine dependent and thymine independent donor and recipient strains measured by incorporation of 14C thymine was observed at the restrictive temperature. In the case of conjugation with temperaturesensitive recipient strains a drop of Lac+ sexductants and Pro+ recombinants may be as a result of disturbances in the synthesis of complementary strand in recipient, known to be dependent on pol III. However, the episome investigated by centrifugation in neutral CsC1 gradient after its transfer to the recipient with faulty polymerase III was double stranded (replicated) at the restrictive temperature.
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PMID:The role of polymerase III in conjugation between E. coli K12 donor and recipient strains carrying dnaE ts mutation. 5 32

Several human prostatic tissues have been examined for possible particles and associated DNA polymerizing activity generally associated with the C-type RNA tumor virus family. Partially purified tissue extracts, when centrifuged to equilibrium in sucrose gradients, yield fractions which contain actinomycin D resistant, endogenous DNA polymerase activity; this activity bands at a density of 1.15-1.18 gm/cm3. Further analysis of the endogenous products by sucrose gradient sedimentation suggested the presence of high molecular weight RNA:DNA hybrids generally felt to be indicative of a faithful copy of a lengthy stretch of viral specific RNA. However, most of the DNA products synthesized in these endogenous reactions sedimented in much lower molecular weight regions of these sucrose gradients. Clearly, the relative distributions of "high" and "low" molecular weight products could critically depend on the nuclease content of the subcellular fraction under study, and the prostate may be relatively enriched in nucleases. Further, oligo (dT) stimulated the endogenous DNA polymerase activity contained in these extracts, and omission of one of the DNA precursor nucleotides depressed it. Thus, it seems unlikely that terminal transferase activity, rather than genuine DNA polymerization, was being measured primarily. Because of the spectrum of molecular weight classes formed by these DNA:RNA hybrids, as well as their apparent presence in normal prostatic tissue, we find it difficult to ascribe their presence with certainty either to the presence of typical C-type RNA viruses or to the exclusive behavior of the neoplastic prostatic tissue. Thus, our studies lend support to the growing evidence for functions similar to those of C-type RNA viruses being relatively widespread in human tissues without the apparent necessity for a possible etiologic role in neoplastic production (Strand and August, 1974; Sherr et al., 1974). At the same time, our current studies emphasize the need for caution in drawing conclusions from results utilizing probes generally felt quite useful in scoring for presence of virus in lower animals at least in the human prostate.
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PMID:RNA tumor virus-like activities in human solid tissues: endogenous RNA:DNA polymerase activities in the prostate. 5 36

The synthesis of large, possibly complete, complementary DNA (cDNA) copies of poliovirus RNA by avian myeloblastosis virus DNA polymerase is described. The cDNA consists of two size classes, the larger of which is approximately 7500 nucleotides. In the presence of excess deoxynucleoside triphosphates, ribonucleoside triphosphates, or sodium pyrophosphate, only the larger material is obtained. Yields of the large cDNA are 50-75% of the input RNA.
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PMID:Synthesis of extensive, possibly complete, DNA copies of poliovirus RNA in high yields and at high specific activities. 5 25

The association of avian myeloblastosis virus (AMV) DNA polymerase with polynucleotide templates during catalysis has been studied. During the course of polymerization, different template-primer complexes were added and the ability of the enzyme to switch from one polynucleotide template to another was determined. At 37 degrees C as well as at 4 degrees C, the polymerase is able to switch from certain template-primer complexes to others. For example, the addition of poly(A)-oligo(dT) during the course of synthesis with poly(C)-oligo(dG) results in the immediate cessation of dGMP polymerization and the start of dTMP polymerization without any lag. Early during the course of polymerization, the size of the product, as determined by alkaline sucrose gradient centrifugation, is, in part, a function of the ratio of the template-primer complex to the enzyme. These cumulative experiments indicate that catalysis on polynucleotide templates with avian myeloblastosis virus DNA polymerase under the conditions tested is not processive in a classical sense. Similar to cellular DNA polymerases the enzyme can shift from one template-primer to another. Using autoradiography after gel electrophoresis to estimate the product size, it can be calculated that the enzyme switches from one template to another within 0.25 min at 37 degrees C which corresponds to the incorporation of greater than 25 nucleotides. At 4 degrees C, switching can be calculated to occur in less than three nucleotide addition steps. Thus, with certain homopolymers, conditions can be found by which AMV DNA polymerase can switch from one template-primer complex to another, perhaps after each nucleotide addition step.
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PMID:On the association of reverse transcriptase with polynucleotide templates during catalysis. 6 Jan 29

The effects of Mg++, Mn++, and KCl addition, individually and in combination, on the rate of DNA- and RNA-primed DNA synthesis by avian myeloblastosis virus DNA polymerase (reverse transcriptase) using a variety of natural and synthetic template-primer combinations were examined. Optimal divalent cation concentrations were found to vary by as much as 10-fold depending upon the template-primer used to direct synthesis. Addition of KCl to reaction mixtures containing optimal divalent cation concentrations produced stimulation or inhibition of DNA synthesis which was also template-specific. DNA synthesis on the modified template poly (2'-0-methylcytidylate) was uniquely stimulated by combinations of divalent cations. With Mg++ as divalent cation, deviations from classical Michaelis-Menten kinetics of substrate saturation were observed with all template-primers tested.
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PMID:Observations on template-specific conditions for DNA synthesis by avian myeloblastosis virus DNA polymerase. 6 Jul 40


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