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 influence of 9-beta-D-arabinofuranosyladenine (ara-A) and its 5'-triphosphate derivative on programmed synthesis was tested with an intact cell system as well as with isolated enzyme systems. The effect of ara-A was tested in mouse lymphoma cells (L5178Y). The compound reduces cell proliferation in low concentration by cytostasis; under high ara-A concentration of radioactive precursors into DNA, RNA, and protein showed that ara-A selectively inhibits DNA synthesis. Formation of a polysome complex is not affected by ara-A. [3H]ara-A is incorporated into DNA in an intact cell system; 1 molecule of ara-A is incorporated per 8000 molecules of deoxyadenosine. Most of the ara-A molecules appeared to be in internucleotide linkages. Incorporation of ara-A into RNA could not be detected. 9-BETA-D-Arabinofuranosyladenine 5'-triphosphate (ara-ATP) does not reduce the incorporation rate of the following enzymes, isolated from quail oviducts: DNA-dependent RNA polymerases I and II, polyadenylic acid polymerase, and poly(adenosine diphosphate ribose) polymerase. The compound was found to inhibit DNA synthesis catalyzed by DNA polymerases isolated from quail oviducts and from oncogenic RNA viruses (Rous sarcoma viruses). All the enzymes tested were inhibited by ara-ATP in a competitive way with respect to deoxyadenosine 5'-triphosphate. The highest affinity of ara-ATP, i.e., the highest inhibitory potency of the drug, was found in the assays with the eukaryotic low-molecular DNA-dependent DNA polymerase. The influence on the eukaryotic high-molecular DNA-dependent Dna polymerase was a litte less. Compared to the eukaryotic DNA polymerases, the viral enzymes (RNA-directed DNA polymerase and DNA-directed DNA polymerase) are affected to a smaller extent by ara-ATP. No effects of ara-A and ara-ATP are observed in a protein-synthesizing, cell-free system isolated from L5178Y cells.
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PMID:Mode of action of 9-beta-D-arabinofuranosyladenine on the synthesis of DNA, RNA, and protein in vivo and in vitro. 114 31

The influence of poly(ADP-ribose) polymerase (PARP) on the replication of DNA containing the SV40 origin of replication has been examined. Extensive replication of SV40 DNA can be carried out in the presence of T antigen, topoisomerase I, the multimeric human single strand DNA-binding protein (HSSB), and DNA polymerase alpha-DNA primase (pol alpha-primase) complex (the monopolymerase system). In the monopolymerase system, both small products (Okazaki fragments), arising from lagging strand synthesis, and long products, arising from leading strand synthesis, are formed. The synthesis of long products requires the presence of relatively high levels of pol alpha-primase complex. In the presence of PARP, the synthesis of long products was blocked and only small Okazaki fragments accumulated, arising from the replication of the lagging strand template. The inhibition of leading strand synthesis by PARP can be effectively reversed by supplementing the monopolymerase system with the multimeric activator 1 protein (A1), the proliferating cell nuclear antigen (PCNA) and PCNA-dependent DNA polymerase delta (the dipolymerase system). The inhibition of leading strand synthesis in the monopolymerase system was caused by the binding of PARP to the ends of DNA chains, which blocked their further extension by pol alpha. The selective accumulation of Okazaki fragments was shown to be due to the coupled synthesis of primers by DNA primase and their immediate extension by pol alpha complexed to primase. PARP had little effect on this coupled reaction, but did inhibit the subsequent elongation of products, presumably after pol alpha dissociated from the 3'-end of the DNA fragments. PARP inhibited several other enzymatic reactions which required free ends of DNA chains. PARP inhibited exonuclease III, DNA ligase, the 5' to 3' exonuclease, and the elongation of primed DNA templates by pol alpha. In contrast, PARP only partly competed with the elongation of primed DNA templates by the pol delta elongation system which required SSB, A1, and PCNA. These results suggest that the binding of PARP at the ends of nascent DNA chains can be displaced by the binding of A1 and PCNA to primer ends. HSSB can be poly(ADP-ribosylated) in vivo as well as in vitro. However, the selective effect of PARP in blocking leading strand synthesis in the monopolymerase system was shown to depend primarily on its DNA binding property rather than on its ability to synthesize poly(ADP-ribose).
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PMID:Influence of poly(ADP-ribose) polymerase on the enzymatic synthesis of SV40 DNA. 167 70

6-Nitroso-1,2-benzopyrone, an oxidation product of 6-amino-1,2-benzopyrone, binds to the DNA-recognizing domain of the ADP-ribose transferase protein and preferentially destabilizes Zn2+ from one of the two zinc finger polypeptide complexes present in the intact enzyme, as determined by the loss of 50% of 65Zn2+ from the 65Zn(2+)-isolated protein molecule, coincidental with the loss of 99% of enzymatic activity. The 50% zinc-deficient enzyme still binds to a DNA template, consisting of a 17-mer DNA primer annealed to M13 positive strand, resulting in the blocking of DNA synthesis by the Klenow fragment of Pol I. Auto-poly-ADP-ribosylated ADP-ribose transferase, which is the probable physiological state of this protein in intact cells, does not bind to primer-template DNA and does not block DNA synthesis by the Klenow fragment. On the basis of this in vitro model it is proposed that molecules which inhibit or inactivate ADP-ribose transferase in intact cells can induce significant alteration in DNA structure and replication.
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PMID:Destabilization of Zn2+ coordination in ADP-ribose transferase (polymerizing) by 6-nitroso-1,2-benzopyrone coincidental with inactivation of the polymerase but not the DNA binding function. 191 72

Poly(ADP-ribosyl)ated diadenosine tetraphosphate was found to inhibit the in vitro replication of SV40 DNA. This inhibition was sensitive to preincubation of the polymer with either poly(ADP-ribose) glycohydrolase, diadenosine tetraphosphate (Ap4A):ADP phosphohydrolase, or an excess of free Ap4A. In contrast, the general catalytic activity of DNA polymerase was not inhibited by the poly(ADP-ribosyl)ated Ap4A when activated salmon sperm DNA was used as a template. These data suggest that inhibition of SV40 DNA replication by poly(ADP-ribosyl)ated Ap4A requires both the intact polymer and intact Ap4A moiety and is specific to events occurring during the initiation or elongation of a double-stranded template. Since both poly(ADP-ribose) and Ap4A accumulate in cultured mammalian cells following stresses which are accompanied by DNA strand breaks, these data are consistent with a model in which poly(ADP-ribosyl)ated Ap4A inhibits DNA replication following DNA damage.
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PMID:Inhibition of simian virus 40 DNA replication in vitro by poly(ADP-ribosyl)ated diadenosine tetraphosphate. 282 3

The rate of intracellular ligation of excision-repair patches has been measured under conditions of inhibition of poly(ADP-ribose) synthesis by 3-aminobenzamide. Excision-repair patches in DNA of cells damaged by methyl methanesulfonate were labeled with [3H]thymidine and blocked at an intermediate stage by aphidicolin, an inhibitor of DNA polymerase alpha. Removal of [3H]thymidine and aphidicolin permitted the intracellular ligation rate to be determined by rapid digestion of [3H]-labeled 3' termini with exonuclease III. Contrary to previous conclusions from more indirect experiments, inhibition of poly(ADP-ribose) synthesis by 3-aminobenzamide actually facilitates rapid ligation.
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PMID:Enhanced ligation of repair sites under conditions of inhibition of poly(ADP-ribose) synthesis by 3-aminobenzamide. 308 4

The rate of intracellular ligation of excision repair patches has been measured under conditions of inhibition of poly(ADP-ribose) synthesis by 3-aminobenzamide. Excision repair patches in DNA of cells damaged by methyl methanesulfonate were labeled with [3H]thymidine and blocked at an intermediate stage by aphidicolin, an inhibitor of DNA polymerase alpha. Nearly half of the [3H]thymidine label in the repair patches was sensitive to rapid digestion by exonuclease III, indicating that the label was at unligated 3' termini of repair sites. Removal of [3H]thymidine and aphidicolin permitted the intracellular ligation rate to be determined. From analysis of chromatin, ligation appeared to occur rapidly, independent of the effect of 3-aminobenzamide. Analysis of purified DNA, however, indicated that high doses of methyl methanesulfonate resulted in slow ligation rates but that 3-aminobenzamide accelerated the rates of ligation. The analysis of chromatin, therefore, indicates that unligated repair sites are sites of protein accretion which block exonuclease III action. The results from analysis of DNA indicate that poly(ADP-ribose) synthesis and associated pool depletion inhibits ligation rates; 3-aminobenzamide prevents poly(ADP-ribose) synthesis, maintains pool levels high and facilitates rapid ligation.
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PMID:DNA ligation and changes in chromatin structure associated with repair patches under conditions of inhibition of poly(ADP-ribose) synthesis. 308 71

DNA polymerase beta purified from bovine thymus is markedly inhibited when incubated in a reconstituted poly(ADP-ribosyl)ating reaction system. Analyses of the reaction product synthesized in this system by SDS-polyacrylamide gel electrophoresis and subsequent fluorography of the gel indicated that ADP-ribose is covalently attached to DNA polymerase beta molecule (Mr = 44,000).
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PMID:Poly(ADP-ribosyl)ation of DNA polymerase beta in vitro. 377 75

Isolated rat pancreatic polynucleosomes were poly(ADP-ribosylated) with purified calf thymus poly(ADP-ribose) polymerase. A time course study was performed using an NAD concentration of 200 microM and changes in nucleosomal structure were investigated by means of electron microscopy visualization and sedimentation velocity determinations. In parallel, analyses of histone H1 poly(ADP-ribosylation) and determinations of DNA polymerase alpha activity on ADP-ribosylated polynucleosomes were done at different time intervals. A direct kinetic correlation between ADP-ribose incorporation, polynucleosome relaxation amd histone H1 hyper-ADP-ribosylation was established. In addition, DNA polymerase alpha activity was highly stimulated on ADP-ribosylated polynucleosomes as compared to control ones, suggesting increased accessibility of DNA to enzymatic action. Because of the strong evidence implicating histone H1 in the maintenance of higher-ordered chromatin structures, the present study may provide a basis for the interpretation of the involvement of the histone H1 ADP-ribosylation reaction in DNA rearrangements during DNA repair, replication or gene expression.
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PMID:Time course of polynucleosome relaxation and ADP-ribosylation. Correlation between relaxation and histone H1 hyper-ADP-ribosylation. 391 19

Incubation of DNA polymerase alpha, DNA polymerase beta, terminal deoxynucleotidyl transferase, or DNA ligase II in a reconstituted poly(ADP-ribosyl)ating enzyme system markedly suppressed the activity of these enzymes. Components required for poly(ADP-ribose) synthesis including poly(ADP-ribose) polymerase, NAD+, DNA, and Mg2+ were all essential for the observed suppression. Purified poly(ADP-ribose) itself, however, was slightly inhibitory to all of these enzymes. Furthermore, the suppressed activities of DNA polymerase alpha, DNA polymerase beta, and terminal deoxynucleotidyl transferase were largely restored (3 to 4-fold stimulation was observed) by a mild alkaline treatment, a procedure known to hydrolyze alkaline-labile ester linkage between poly(ADP-ribose) and an acceptor protein. All of these results strongly suggest that the four nuclear enzymes were inhibited as a result of poly(ADP-ribosyl)ation of either the enzyme molecule itself or some regulatory proteins of these enzymes.
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PMID:Inhibition of DNA polymerase alpha, DNA polymerase beta, terminal deoxynucleotidyl transferase, and DNA ligase II by poly(ADP-ribosyl)ation reaction in vitro. 392 Oct 27

Analysis of sister chromatid exchanges (SCEs) is widely used as an assay for mutagenic carcinogens. Visualization of SCEs generally requires that the cells be cultured for 2 cycles of replication with the thymidine analog bromodeoxyuridine (BrdUrd). To see if incorporation of BrdUrd into chromosomal DNA influences the SCE response after treatment with chemical compounds, we have studied the effect of BrdUrd incorporation on SCEs induced by 5 different chemicals: bleomycin (BLM), which causes DNA single- and double-strand breakage; proflavine (PF), which intercalates into DNA; mitomycin C (MMC), a polyfunctional alkylating agent that cross-links DNA and also forms monoadducts; and 2 chemicals that do not appear to interact with DNA directly, aphidicolin (APC), an inhibitor of DNA polymerase alpha; and 3-aminobenzamide (3AMB), an inhibitor of poly-(ADP-ribose)-polymerase. Chemical treatment was for the first, second, or both cell cycles, and BrdUrd was present for the first or both cell cycles. All treatments with BLM, PF, or MMC increased the SCE frequency independently of the BrdUrd labeling protocol. With APC and 3AMB, on the other hand, only small increases in SCE frequency were observed when treatment was for the first cell cycle, but there were far greater increases when the chemical was present for the second or for both successive cell cycles. To further determine at which cycle SCEs were formed after continuous treatment of cells with BrdUrd and a test chemical, we also examined the induction of SCEs in the first cell cycle (twins) and in the second cell cycle (singles) in tetraploid cells. Bleomycin, PF, and APC induced almost equal numbers of SCEs in both cell cycles, but MMC appeared to induce more SCEs in the second cycle than in the first. This is probably caused by long-lived lesions that induce SCEs. 3-Aminobenzamide, which does not form persisting lesions, also induced more single than twin SCEs, suggesting that this compound affects BrdUrd-substituted DNA differently than it does unsubstituted DNA. This type of interaction between a chemical and BrdUrdsubstituted DNA should be taken into consideration when SCE analysis is used as an assay system.
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PMID:Effect of bromodeoxyuridine on induced sister chromatid exchanges. 608 62

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