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 synthesis of a series of novel bis(10-methyl)acridinium compounds (both unsubstituted and the 6-chloro-2-methoxy substituted) linked by methylene bridges of lengths from (CH2)4 to (CH2)12 and in one case by spermine is described. Their ability to bind to duplex DNA was compared by their relative inhibition of E. coli DNA polymerase catalyzed DNA synthesis. It was determined that they function as DNA template inhibitors and do not affect the DNA polymerase directly. Their ability to function as bis-intercalators was assessed by a novel and convenient topoisomerase fluorescent assay. It was concluded that whereas the (CH2)4-linked compounds act only as monofunctional intercalators because of steric constraints the (CH2)6-, (CH2)8-, and (CH2)10-linked substituted bisacridinium compounds, as well as the (CH2)10- and (CH2)12- unsubstituted analogues, function as bis-intercalators with DNA.
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PMID:Bis-intercalative binding to DNA of novel bis(10-methyl)acridinium chlorides and its dependence on chain length of linker. 36 40

Topoisomerases are essential enzymes for DNA metabolism in prokaryotes and eukaryotes. In human cells, DNA topoisomerase II enzyme activity can be modulated by both viral transformation and changes in proliferation status. To identify elements important for regulation of topoisomerase II alpha gene expression, genomic DNA clones covering the 5'-end of the gene were isolated. The intron/exon structure of a 2.5-kilobase region encompassing the translation start site was determined. Transcription was found to initiate at multiple sites clustered around 90 base pairs 5' to the ATG initiation codon. Transient expression of chimeric topoisomerase II-reporter gene constructs in HeLa cells revealed that the 5'-flanking region exhibited promoter activity. The region -90 to -1 upstream of the major transcription start site was shown by deletion analysis to include a promoter. This minimal promoter lacks a TATA box, is moderately GC-rich, and contains a high frequency of CpG dinucleotides; characteristic of a "housekeeping" gene promoter. Maximal promoter activity was observed using a fragment extending to position -562. Putative regulatory elements are contained within and immediately upstream of the minimal promoter region. The regulatory region of the topoisomerase II alpha gene identified here is similar in basic structure to those of the human thymidine kinase and DNA polymerase alpha genes, which are also controlled by proliferation-specific factors.
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PMID:Cloning and characterization of the 5'-flanking region of the human topoisomerase II alpha gene. 138 64

We have studied the effect of some specific enzyme inhibitors on DNA repair and replication after UV damage in Chinese hamster ovary cells. The DNA repair was studied at the level of the average, overall genome and also in the active dihydrofolate reductase gene. Replication was measured in the overall genome. We tested inhibitors of DNA polymerase alpha and delta (aphidicolin), of poly(ADPr) polymerase (3-aminobenzamide), of ribonucleotide reductase (hydroxyurea), of topoisomerase I (camptothecin), and of topoisomerase II (merbarone, VP-16). In addition, we tested the effect of the potential topoisomerase I activator, beta-lapachone. All of these compounds inhibited genome replication and all topoisomerase inhibitors affected the overall genome repair; beta-lapachone stimulated it. None of these compounds had any effect on the gene-specific repair.
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PMID:Effect of specific enzyme inhibitors on replication, total genome DNA repair and on gene-specific DNA repair after UV irradiation in CHO cells. 165 49

A high molecular weight mitochondrial DNA (mtDNA) replication complex, associated with the mitochondrial membrane, was isolated by sucrose gradient centrifugation from purified wheat embryo mitochondria. This complex comprised the mtDNA as well as enzyme activities involved in the replication and transcription of the organelle genome, such as DNA polymerase, RNA polymerase and topoisomerase type I. The isolated complex is active in mtDNA and mtRNA synthesis in vitro. Electron microscopy and lipid analysis confirmed the membrane origin of this complex. Enzyme activities are resistant to physiological ionic strengths, 0.1-0.2 M KC1, while the membrane-mtDNA association is resistant up to 1 M KC1. DNase treatment of the complex released the DNA polymerase activity while protease treatment solubilized mtDNA, suggesting the direct interaction of mtDNA with membrane protein(s). The use of a novel approach to detect mtDNA fragments specifically retained by the mitochondrial membranes after Sal I digestion of the complex suggests that specific mtDNA sequences anchor mtDNA to mitochondrial membranes.
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PMID:Isolation from wheat mitochondria of a membrane-associated high molecular weight complex involved in DNA synthesis. 189 1

An ATP-dependent DNA aggregating activity was purified from rat liver by DEAE-cellulose, phosphocellulose, and novobiocin-Sepharose column chromatography. The protein aggregated superhelical, relaxed, single-, or double-stranded DNA in a divalent cation- and ATP-dependent reaction. The DNA aggregating activity was detected by retardation of a DNA-protein complex at the origin on a 1% agarose gel. The protein appeared to exist in solution as a monomer of molecular weight 66,000, and had no DNA polymerase, topoisomerase, recombinase, or ligase activity. The DNA aggregating activity was inhibited by 10 mM nalidixic acid or 1 mM novobiocin but not by 20 mM N-ethylmaleimide or camptothecin. Adenylyl(beta,gamma-methylene)-diphosphonate, adenylyl-imidodiphosphate, or adenosine-5'-O(3-thiotriphosphate) did not substitute for ATP whereas CTP, dTTP, or the ATP analog adenylyl(alpha,beta-methylene)-diphosphonate could replace ATP. The aggregated DNA was only partially dissociated by restriction endonuclease digestion but was completely dissociated by deproteinization with SDS, proteinase K, or chloroform/octanol extraction. On the basis of the molecular weight, thermostability, antigenic property, and amino acid sequence homology in the first 12 positions, we conclude that the rat liver protein is serum albumin and that the ATP-dependent DNA aggregation is a novel function of rat serum albumin.
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PMID:ATP-dependent DNA aggregation is a novel function of rat serum albumin. 189 9

Enhanced DNA repair has been identified as a major mechanism of resistance to the anticancer drug cisplatin in murine leukemia L1210 cells. Studies of other cells have implicated the elevation of a variety of RNA transcripts in cisplatin resistance. This study investigated potential changes in transcription of these genes as well as genes involved in DNA repair. No elevation in any of the following transcripts was observed: thymidylate synthase, dihydrofolate reductase, DNA polymerase alpha, DNA polymerase beta, topoisomerase II, Ha-ras, beta-tubulin, metallothionein and the DNA repair genes ERCC1 and ERCC2. Thymidine kinase was increased no more than 2-fold. None of these RNA were induced by incubation with cisplatin. High levels of cisplatin produced selective decreases in certain RNA. These results demonstrate that the previous observations of elevated RNA can not be universally applied to all cisplatin-resistant cells.
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PMID:Analysis of various mRNA potentially involved in cisplatin resistance of murine leukemia L1210 cells. 197 66

In a previous paper, we determined that treatment of lymphocytes with nonviable preparations of human immunodeficiency virus type 1 (HIV-1) results in an impairment of the phosphatidylinositol/protein kinase C pathway, most likely due to an inhibition of the cleavage of phosphatidylinositol bisphosphate into inositol trisphosphate and diacylglycerol, mediated by phospholipase C. Here we show that one consequence of these changes is a reduced phosphorylation of nuclear matrix-associated DNA topoisomerase II, resulting in an inhibition of the activity of this enzyme. Antibodies to the viral proteins suppressed the inhibitory effects caused by the HIV-1 preparation. Furthermore, the phytohemagglutinin A-caused augmentation of nuclear matrix-associated DNA polymerase alpha and beta activities was found to be abolished by coincubation with the HIV preparation or with the HIV-1 gp120. The phytohemagglutinin A-enhanced matrix association and processivity of DNA polymerase alpha was determined to be reduced if the lymphocytes were in contact with HIV-1 preparation. These results suggest that the reduced proliferative response of lymphocytes to phytohemagglutinin A in the presence of disrupted HIV-1 preparation is due to inhibition of at least two, perhaps separate, pathways, one involving protein kinase C resulting in a reduced phosphorylation of DNA topoisomerase II and the other changing the state of matrix association of DNA polymerase alpha and beta.
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PMID:Effect of nonviable preparations from human immunodeficiency virus type 1 on nuclear matrix-associated DNA polymerase alpha and DNA topoisomerase II activities. 215 2

Either an ionizing radiation exposure or a heat shock is capable of inducing both thermal tolerance and radiation resistance in yeast. Yeast mutants, deficient in topoisomerase I, in topoisomerase II, or in DNA polymerase I, were used to investigate the mechanism of these inducible resistances. The absence of either or both topoisomerase activities did not prevent induction of either heat or radiation resistance. However, if both topoisomerase I and II activities were absent, the sensitivity of yeast to become thermally tolerant (in response to a heat stress) was markedly increased. The absence of only topoisomerase I activity (top1) resulted in the constitutive expression of increased radiation resistance equivalent to that induced by a heat shock in wild-type cells, and the topoisomerase I-deficient cells were not further inducible by heat. This heat-inducible component of radiation resistance (or its equivalent constitutive expression in top1 cells) was, in turn, only a portion of the full response inducible by radiation. The absence of polymerase I activity had no detectable effect on either response. Our results indicate that the actual systems that confer resistance to heat or radiation are independent of either topoisomerase activity or DNA polymerase function, but suggest that topoisomerases may have a regulatory role during the signaling of these mechanisms. The results of our experiments imply that maintenance of correct DNA topology prevents induction of the heat-shock response, and that heat-shock induction of a component of the full radiation resistance in yeast may be the consequence of topoisomerase I inactivation.
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PMID:The involvement of topoisomerases and DNA polymerase I in the mechanism of induced thermal and radiation resistance in yeast. 216 97

We studied DNA repair by injecting plasmids containing random pyrimidine dimers into Xenopus oocytes. We demonstrated excision repair by recovering plasmids and analyzing them with T4 UV endonuclease treatment and alkaline agarose gel electrophoresis. The mechanism for excision repair of these plasmids appears to be processive, rather than distributive, since repair occurs in 'all or none' fashion. At less than 4-5 dimers/plasmid, nearly all repair occurs within 4-6 hours (approximately 10(10) dimers repaired per oocyte); the oocyte, therefore, has abundant repair activity. Specific antibodies and inhibitors were used to determine enzymes involved in repair. We conclude that DNA polymerase alpha (and/or delta) is required because repair is inhibited by antibodies to human DNA polymerase alpha, as well as by aphidicolin, an inhibitor of polymerases alpha (and/or delta). Repair was not inhibited by hydroxyurea, cytosine beta-D-arabinofuranoside, or inhibitors of topoisomerase II (novobiocin). Oocyte repair does not activate semi-conservative DNA replication, nor is protein synthesis required. Photoreactivation cannot account for repair because dimer removal is independent of exogenous light.
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PMID:Excision repair of UV-damaged plasmid DNA in Xenopus oocytes is mediated by DNA polymerase alpha (and/or delta). 217 36

To determine the contribution that DNA polymerase alpha makes to the overall DNA replication fidelity in mammalian systems, we measured the fidelity of replication of the SV40-based shuttle vector, pZ189, in a reconstituted in vitro DNA replication system which contained purified HeLa DNA polymerase alpha (in addition to single-stranded DNA binding protein, topoisomerase II, DNA ligase, 5'----3' exonuclease, ribonuclease H, and SV40 T-antigen). We found that DNA polymerase alpha is highly accurate when carrying out bidirectional replication in this system. This high fidelity of replication by DNA polymerase alpha in the reconstituted replication system contrasts with a relatively low fidelity of gap-filling DNA synthesis on the same target gene by purified HeLa cell DNA polymerase alpha in the absence of other replication factors. The fidelity of DNA replication by DNA polymerase alpha, although relatively high in the reconstituted system, is about 4-fold lower than DNA replication in a crude HeLa cell extract which contains additional replication factors including DNA polymerase delta. These results demonstrate that DNA polymerase alpha has the capacity to replicate DNA with high fidelity when carrying out semiconservative DNA replication in a minimal reconstituted replication system, but additional cellular factors not present in the reconstituted system may contribute to the higher replication fidelity of the crude system.
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PMID:DNA polymerase alpha from HeLa cells synthesizes DNA with high fidelity in a reconstituted replication system. 221 24

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