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 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

Incorporation of [3H]TTP into membrane-denuded nuclei and fractions of these nuclei from host liver and Morris hepatomas has been compared. Treatment of sucrose nuclei with Triton X-100 removed 95% of the phospholipids and 15 to 20% of the protein. These membrane-denuded nuclei remained physically stable. The Triton X-100-extracted nuclei incorporated label into their DNA in nuclear-incorporating system similar to sucrose nuclei with their membranes intact. Triton X-100-treated nuclei from hepatoma 7777 incorporated six times more label and those from hepatoma 7800 incorporated three times more label than Triton X-100-treated host liver nuclei. Nuclei from the three sources incorporated more label when exogenous DNA was added to the incubation system, but the difference in incorporation between the hepatoma nuclei and the host liver nuclei disappeared. When Triton X-100-treated nuclei, prepared from a tumor-bearing animal given injections of [3H]thymidine for 10 min were fractionated on sucrose gradients after disruption by high Mg2+ concentration, the fractions from hepatoma 7777 nuclei contained six times as much label as the host liver nuclear fractions. Nuclear fractions prepared from unabeled hepatomas or host livers had DNA polymerase activity. The activity, however, is the same in fractions prepared from hepatoma 7777 or host liver nuclei. It is suggested that the nuclear membrane does not play an important role in nuclear DNA synthesis. It is further suggested that the increased incorporation found with hepatoma nuclei is dependent on a physical or chemical arrangement of components within the nucleus and not solely on different enzyme levels.
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PMID:DNA synthesis in membrane-denuded nuclei and nuclear fractions from host liver and Morris hepatomas. 16 67

A serum protein present in normal rat serum and absent from the serum of hepatoma-bearing animals at advanced stages has a stimulatory effect on 3H-thymidine incorporation into hepatoma cells in suspension. Liver cells maintained in a similar suspension are not affected by the factor. The stimulation appears to be at the level of chromatin or DNA. Isolated membrane-denuded nuclei from Morris hepatoma 7777 incorporate more 3H-TTP when the factor is present in the incubation mixture. Nuclei from host liver are not stimulated. The factor also stimulates incorporation of 3H-TTP in a system using calf thymus DNA as primer and an extracted DNA polymerase. In this system incorporation is stimulated with DNA polymerase from both tissues, host liver and hepatoma 7777. It is concluded that the factor does not act on the DNA polymerase but on chromatin or DNA.
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PMID:Stimulatory effect of a serum factor on DNA synthesis in isolated hepatoma nuclei. 17 43

The phosphorylation of arabinofuranosylthymine (araThd) has been studied both in non-infected cells and in those infected with herpes simplex virus (HSV-1, Lennette; HSV-1, IES and HSV-2, D-316). In these experiments, HSV strains were used which either contain (Lennette, TK+ and D-316 TK+) or lack (IES, TK-) the capacity to induce pyrimidine deoxyribonucleoside kinase. It was found that extracellularly administered araThd is phosphorylated to ara TTP via araTMP and araTDP in both non-infected and in HSV-infected cells. The phosphorylating capacity is more than tenfold lower in non-infected cells than in infected cells. Interestingly, cells infected with the TK- strain have a tenfold higher phosphorylating capacity than normal, uninfected cells, a fact which might indicate that host cell deoxythymidine kinase is induced during HSV infection. AraTMP is incorporated into cellular DNA but not into HSV DNA. This finding is in contrast to observations with arabinofuranosyladenine, which is incorporated into both cellular and HSV DNA. In vitro experiments with HSV-induced DNA polymerase show that araTTP strongly inhibits the enzyme activity. Therefore we conclude that the inhibition of HSV DNA polymerase by araTTP (formed intracellularly from araThd) is the explanation for the observed antiviral activity of araThd.
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PMID:Phosphorylation of arabinofuranosylthymine in non-infected and herpesvirus (TK+ and TK-)-infected cells. 22 22

Thymidine kinase (TK), DNA polymerase, and DNase activities were induced in human foreskin fibroblasts after varicella-zoster virus infection. The induced TK and DNase activities have electrophoretic mobilities different from the corresponding host enzymes. Varicella-zoster virus-induced TK was purified and separated from the host enzyme by affinity column chromatography. This enzyme has been shown to have a broader substrate specificity with respect to either the phosphate donor or acceptor as compared with human cytoplasmic and mitochondrial TKs. The best phosphate donor is ATP, with a Km of 16 microM. The Km values of thymidine, deoxycytidine, and 5-propyl deoxyuridine were estimated to be 0.4, 180, and 0.8 microM, respectively. The Ki values for several analogs of thymidine such as 5-iododeoxyuridine, arabinofuranosylthymine, 5-ethyl deoxyuridine, and 5-cyanodeoxyuridine were also examined. TTP acted as a noncompetitive inhibitor with respect to thymidine with a Ki of 5 microM. The kinetic behavior of varicella-zoster virus-induced TK is different from human cytoplasmic, human mitochondrial, and herpes simplex virus type 1- and 2-induced TKs.
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PMID:Induction of thymidine kinase and DNase in varicella-zoster virus-infected cells and kinetic properties of the virus-induced thymidine kinase. 22 52

The presence of DNA polymerase and primer-template DNA in lymphoblast nuclei by measuring the in vitro incorporation of 3H-thymidine-5'-triphosphate (3H-TTP) was studied in 10 patients with acute lymphoblastic leukemia. Protein synthesis and various other cytokinetic parameters were also studied. After prednisone (P) administration a marked decrease in 3H-TTP labelling index (3H-TTP LI) was apparent together with an inhibition of 3H-leucine incorporation (3H-LEU LI) into lymphoblasts. A moderate decrease in 3H-TDR labelling index (3H-TDR LI) and a later decrease in mitotic index (MI) were seen. Single cell DNA measurements showed a depletion of 3H-TDR labelled lymphoblasts in early part of S-phase apparent at 24 h lasting up to 54 h after P administration. Vncristine given as a flash injection later in the study period caused an immediate rise of the MI, at the same time the P induced decline in 3H-TTP LI, 3H-TDR LI and 3H-LEU LI were continued in most patients. P is thought to damage the cells both in and outside the cell cycle. In the cell cycle the effect of P is an arresting effect in G1.
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PMID:Cell proliferation and DNA dependent DNA polymerase estimation in acute lymphoblastic leukaemia during treatment with prednisone and vincristine. 28 67

Homogeneous preparations of phage T7 gene 4 protein catalyze the hydrolysis of dNTPs and rNTPs to NDPs and Pi in the presence of single-stranded DNA. Synthesis on single-stranded DNA by T7 DNA polymerase (DNA nucleotidyltransferase; deoxynucleosidetriphosphate:DNA deoxynucleotidyltransferase, EC 2.7.7.7) does not affect the hydrolysis of NTPs by the gene 4 protein. Gene 4 protein does not catalyze the hydrolysis of NTPs in the presence of duplex DNA, nor can T7 DNA polymerase use duplex DNA as a template. However, the two proteins together can replicate duplex DNA and, under these conditions, synthesis is accompanied by hydrolysis of NTPs. During synthesis on duplex templates in the presence of T7 DNA polymerase, gene 4 protein, dNTPs, and rNTPs, 4.2 NTPs are hydrolyzed for each dNMP polymerized. 2'3'-Dideoxy-TTP, an inhibitor of DNA synthesis, inhibits hydrolysis by the gene 4 protein during synthesis on duplex DNA, and beta, gamma-methylene-dTTP, an inhibitor of hydrolysis by the gene 4 protein, stops DNA synthesis on duplex DNA. The multiple activities of gene 4 protein are shown to reside in a single protein molecule.
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PMID:Replication of duplex DNA by bacteriophage T7 DNA polymerase and gene 4 protein is accompanied by hydrolysis of nucleoside 5'-triphosphates. 32 56

An in vitro system was used to study DNA synthesis in lysates of Escherichia coli cells which had been grown in the presence of ethionine. Such lysates showed a reduced capacity to incorporate [3H]TTP into high-molecular-weight material. Activity could be restored by incubation with S-adenosyl methionine and ATP. S-adenosyl methionine-reactivated TTP incorporation required the presence of DNA polymerase I, ATP, and all four deoxyribonucleotide triphosphates. DNA polymerase III was not required.
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PMID:Methylation-dependent DNA synthesis in Escherichia coli mediated by DNA polymerase I. 36 22

The cellular content and transcription program of the chloroplast ribosomal RNA genes of Euglena gracilis Z have been determined during the light-induced development of chloroplasts by hybridization of total cell DNA or RNA to purified 3H-labeled chloroplast ribosomal DNA ([3H]ctrDNA). Pancreatic DNase activated, partially purified chloroplast rDNA was enzymatically labeled in vitro by E. coli DNA polymerase I with [3H]TTP as a substrate. The [3H] DNA was denatured and hybridized with a vast excess of purified chloroplast 16 and 23S rRNA. The rRNA-[3H]ct rCNA hybrid was isolated by chromatography on hydroxylapatite. The [3H]ct rDNA was purified and characterized by the kinetics of its renaturation with chloroplast DNA and rRNA, and by the thermal stability of [3H]DNA-DNA and [3H]DNA-RNA hybrids. [3H]ct rDNA was hybridized in trace amounts to cellular RNA or DNA isolated from Euglena cells 0,4,8,12,24,48, and 72 h after the onset of chloroplast development. From a comparison of the kinetics of hybridization with hybridization of standards of known kinetic complexity quantitative estimates of the cellular rRNA and rDNA gene content were made. Chloroplast rRNA increases from 2 to 26% of the cellular RNA during development, while the percentage of cellular DNA represented by ct rDNA increases two- to threefold. Correcting for the change in cellular RNA and DNA content during development, the number of copies of the rRNA gene increases less than twofold, while the number of copies of rRNA per cell increases sixfold. The results are consistent with either a transcriptional activation of the ribosomal genes or an increased rRNA stability during developmental.
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PMID:Expression of the chloroplast ribosomal RNA genes of Euglena gracilis during chloroplast development. 40 48

The labelling of mouse DNA by nick translation with DNA polymerase I has been investigated with respect to the time of incubation, requirement for DNAase I, size of the product, and uniformity of labelling, and the hybridisability and stability of the resultant labelled probes. Total mouse DNA and reannealed unique mouse DNA sequences can be labelled by nick translation in the presence of [3H]dCTP and [3H]TTP to a specific activity of 7 . 10(6)--20 . 10(6) cpm/microgram DNA. The hybridisation characteristics of nick-translated whole DNA with an excess of unlabelled mouse-embryo driver DNA indicates that no preferential labelling of repetitive or unique DNA sequence classes occurs. In addition, the proportion of unique DNA sequences labelled by nick translation which hybridises with polyadenylated nuclear RNA from Friend cells is the same as that of unique DNA sequences isolated from cells labelled with [3H]thymidine in vivo, indicating that few (if any) of the unique DNA sequences are unrepresented in the nick-translated probe. Probes which contain [3H]dTMP are unstable, and show a considerable reduction in hybridisability over a period of 6 months at --20 degrees C. The decrease is accompanied by an increase in the number of mismatched sites in duplexes containing the labelled probe (as shown by thermal stability measurements of hybrid molecules) and a decrease in the rate of hybridisation of the probe with total mouse DNA. In contrast, DNA which is labelled with [3H]dCMP alone is stable, and does not show any decrease in hybridisability on prolonged storage.
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PMID:Nick translation of mammalian DNA. 57 Apr 19

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