EC:5.99.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A protein required for the elongation of replicating intermediates of adenovirus (Ad) DNA to full length has been isolated and characterized. This factor, isolated from nuclear extracts of uninfected HeLa cells, has been designated nuclear factor II. In the presence of Ad DNA with proteins at each 5' end (Ad DNA-protein) and three proteins coded for by the Ad genome [the preterminal protein (pTP), the DNA polymerase (Ad Pol), and the DNA binding protein (Ad DBP)], nuclear factor II complementing activity is detected only in the presence of host nuclear factor I. Highly purified preparations of nuclear factor II that are free of detectable DNA polymerase alpha, beta, and gamma activities contain a DNA topoisomerase activity. Furthermore, type I DNA topoisomerases purified from HeLa cells and calf thymus substitute for nuclear factor II complementing activity in the in vitro Ad DNA replication system. These results indicate that a protein that is involved in higher order DNA structure is required for Ad replication. This protein plus the purified proteins described above carry out the initiation and synthesis of full-length 36,000-base-pair Ad DNA.
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PMID:Adenovirus DNA replication in vitro: synthesis of full-length DNA with purified proteins. 630 11

A DNA-relaxing enzyme was found to copurify along with herpes simplex virus type I (HSV-1)-induced DNA polymerase throughout a multistep purification scheme. Both the enzymes had similar sedimentation velocity, required high ionic strength for optimal enzymatic activities and showed time dependence of reaction. The DNA-relaxing enzyme however, differed from the HSV-1 DNA polymerase in its requirement for higher Mg2+ concentration, rATP and much broader pH dependence. Furthermore, phosphonoacetic acid, a potent inhibitor of HSV-1 DNA polymerase did not influence the DNA-relaxing activity even at a much higher concentration. On the other hand, the DNA-relaxing enzyme associated with the DNA polymerase may be specified by HSV-1 since IgG fraction of rabbit antisera against the virus-infected cells but not against the mock-infected cells strongly inhibited both the enzymatic activities. Thus, HSV-1-induced DNA polymerase which is known to be associated with a 3' to 5' exonuclease may also be associated with yet another enzymatic activity involved in DNA metabolism.
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PMID:A DNA topoisomerase activity copurifies with the DNA polymerase induced by herpes simplex virus. 630 34

We investigated, in a cloned hamster tracheal epithelial cell line HTE-B, the effects of inhibitors of DNA topoisomerase, novobiocin and nalidixic acid; of DNA polymerase, 1-beta-arabinofuranosylcytosine (ara-C) and 2',3'-dideoxythymidine; of ribonucleotide reductase, hydroxyurea; and of poly(ADP-ribose)synthetase, 3-aminobenzamide, upon the removal of benzo[a]pyrene adducted to DNA [B[a]P--DNA]. A substantial reduction in the rate of removal of the polycyclic hydrocarbon-adducts occurred when nalidixic acid was added to the HTE-B cells that had been previously incubated with B[a]P for 8 h. Novobiocin produced a similar, but less marked, effect. The rate of disappearance of the individual B[a]P--DNA adducts was measured by analysis of the h.p.l.c. profiles. Of the 5 major adducts observed under the h.p.l.c. conditions, 4 were reduced in control cells to 30% of the original levels by 24 h after removal of the B[a]P from the medium; adduct 5 was almost completely removed. In the presence of nalidixic acid, during the 24 h repair period, only the removal of adduct 5 was unimpaired; the removal of the other 4 adducts was significantly retarded. On the other hand, 3-aminobenzamide addition did not affect the rate of removal of B[a]P--DNA adducts from the HTE-B cells. We employed the combinations of ara-C and dideoxythymidine or ara-C and hydroxyurea to allow the accumulation of single strand breaks after incubation of the HTE-B cells with B[a]P. These breaks were assayed by alkaline elution analysis. Inclusion of these inhibitors during the 2 h after removal of the B[a]P from the medium resulted in the accumulation of 4-5 single strand breaks/10(10) daltons of HTE-B DNA. This compares with a minimum estimate of the number of adducts removed during this period of 3 adducts/10(7) daltons. This discrepancy may indicate that the majority of lesions are not repaired by a pathway sensitive to polymerase inhibitors. In the presence of 3-aminobenzamide, we routinely observed a 10% increase in the alkaline elution of the DNA obtained from B[a]P-treated cells (1-2 breaks/10(10) daltons). Our results indicate that an excision repair process may be involved in the removal of at least some of the B[a]P-induced damage to DNA. However, the repair of the multiple adducts is complex and may involve pathways other than classical excision repair.
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PMID:The influence of inhibitors on the repair of benzo[a]pyrene-damaged DNA in hamster tracheal epithelial cells. 632 Oct 50

A preparation of bacteriophage T4-induced deoxyribonucleotide synthetase complex is described. This very large complex of enzymes can be separated by centrifugation at 100,000 X g, by sucrose step gradient centrifugation, or with molecular exclusion columns. By direct assay and by unidimensional and two-dimensional acrylamide electrophoretic separations the following T4-coded enzymes were shown to be associated with the complex: ribonucleoside diphosphate reductase, dCMP deaminase, dCTP/dUTPase, dCMP hydroxymethylase, dTMP synthetase, and DNA polymerase. Other phage-coded prereplicative proteins related to DNA replication and other phage functions such as the proteins coded by genes 32, 46, rIIA, and rIIB as well as many unidentified proteins were also consistently associated with the isolated fractions. T4 DNA topoisomerase, a membrane-bound enzyme, was found in quantity in all purified fractions of the complex, even in preparations apparently free of membrane and of T4 DNA. The functional integrity of a segment of the complex was followed by measuring the conversion of [5-3H]CDP to the level of 5-hydroxymethyl dCMP. This series of reactions requires the actions of T4-coded ribonucleoside diphosphate reductase and its associated reducing system, dCTP/dUTPase and dCMP hydroxymethylase, 3H being lost to water at the last step. In this reaction sequence an intermediate, [5-3H]dCMP, is maintained at low steady state concentrations, and argument is presented that the synthesis of deoxyribonucleotides is channeled and normally tightly coupled to DNA replication. One of the primary characteristics of this complex is its ready dissociation of dilution into smaller complexes of proteins and to the free forms of the proteins. That the complex is held together by weak electrostatic forces was supported by its sensitivity to dissociation at moderate salt concentrations. Not only the enzymes required in deoxyribonucleotide synthesis but T4 DNA polymerase, T4 DNA topoisomerase, and a number of other proteins dissociate to varying degrees from the larger complexes under these conditions.
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PMID:Characteristics of a bacteriophage T4-induced complex synthesizing deoxyribonucleotides. 675 52

Frameshift mutations induced by acridines in bacteriophage T4 have been shown to be due to the ability of these mutagens to cause DNA cleavage by the type II topoisomerase of T4 and the subsequent processing of the 3' ends at DNA nicks by DNA polymerase or its associated 3' exonuclease followed by ligation of the processed end to the original 5' end. An analysis of the ability of nick-processing models is presented here to test the ability of nick processing to account for the DNA sequences of duplications and deletions induced in the aprt gene of CHO cells by teniposide (VM-26) [Han et al. (1993) J. Mol. Biol., 229, 52]. Although teniposide is not an acridine, it induces topoisomerase II-mediated DNA cutting in aprt sequences in vitro and mutagenesis in vivo. Although the previous study noted a correlation between mutation sites and nearby DNA discontinuities induced by the enzyme in vitro, neither the nick-processing model responsible for T4 mutations, nor double-strand break models alone were able to account for most of the mutant sequences. Thus, no single model explained the correlation between teniposide-induced DNA cleavage and mutagenic specificity. This report describes an expanded analysis of the ways that nick-processing models might be related to mutagenesis and demonstrates that a modified nick-processing model provides a biochemical rationale for the mutant specificities. The successful nick-processing model proposes that either 3' ends at nicks are elongated by DNA polymerase and/or that 5' ends of nicks are subject to nuclease activity; 3'-nuclease activity is not implicated. The mutagenesis model for nick-processing of teniposide-induced nicks in CHO cells when compared to the mechanism of nick-processing in bacteriophage T4 at acridine-induced nicks provides a framework for considering whether the differences may be due to cell-specific modes of DNA processing and/or due to the precise characteristics of topoisomerase-DNA intermediates created by teniposide or acridine that lead to mutagenesis.
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PMID:Deletion and duplication sequences induced in CHO cells by teniposide (VM-26), a topoisomerase II targeting drug, can be explained by the processing of DNA nicks produced by the drug-topoisomerase interaction. 751 Aug 33

A novel ATP-dependent DNA unwinding enzyme, called human DNA helicase VI (HDH VI), was purified to apparent homogeneity from HeLa cells and characterized. From 327 g of cultured cells, 0.44 mg of pure enzyme was recovered, free of DNA polymerase, ligase, topoisomerase, nicking and nuclease activities. The enzyme behaves as a monomer having an M(r) of 128 kDa, whether determined with SDS-PAGE, or in native conditions. Photoaffinity labelling with [alpha-32P]ATP labelled the 128 kDa protein. Only ATP or dATP hydrolysis supports the unwinding activity for which a divalent cation (Mg2+ > Mn2+) is required. HDH VI unwinds exclusively DNA duplexes with an annealed portion < 32 bp and prefers a replication fork-like structure of the substrate. It cannot unwind blunt-end duplexes and is inactive also on DNA-RNA or RNA-RNA hybrids. HDH VI unwinds DNA unidirectionally by moving in the 3' to 5' direction along the bound strand.
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PMID:Purification and properties of human DNA helicase VI. 754 99

The mechanism for incorporation of aphidicolin-sensitive DNA polymerase into reconstituting sperm nuclei was studied in a Xenopus egg extract cell-free system. Aphidicolin-sensitive DNA polymerase activity was sedimented along with the light membrane fraction of Xenopus egg extract on a discontinuous sucrose gradient. Treatment of the egg extract with Triton X-100 caused DNA polymerase activity to migrate to a lighter density position at which free proteins were distributed. DNA polymerase activity was incorporated into the reconstituting sperm nuclei from the egg extract, but no nuclear incorporation was observed in nuclei incubated in egg extracts which had been treated with Triton X-100 or sonicated. The incorporation was also prohibited by several different treatments of the egg extract resulting in incomplete assembly of the nuclear membrane on the sperm nuclei. On the other hand, there was no inhibition of nuclear incorporation into the sperm nuclei reconstituting in the extracts which had been depleted of WGA-binding pore complex proteins or which contained a specific inhibitor of topoisomerase II (ICRF-193). In these two cases, the nuclear double-layered membrane assembled normally, although in the former case the sperm nuclei lacked lamina and did not initiate DNA replication, and in the latter case the sperm nuclei did not decondense but initiated DNA replication. Thus, it is concluded that DNA polymerase activity is incorporated into the reconstituting nuclei via the membraneous/particulate fraction of the egg extract simultaneously with nuclear double-layered membrane assembly. The lamina assembly and the transport system via the nuclear envelope pore complex are suggested not to participate in DNA polymerase nuclear incorporation.
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PMID:Aphidicolin-sensitive DNA polymerase is incorporated into the chromatin during nuclear envelope assembly in Xenopus egg extract. 762 44

Twenty-one independent thymidylate synthase deficient (td) mutants were isolated after proflavin mutagenesis of T4D0 phage. A strikingly high proportion of these mutations (17 of 21; 80%) mapped in a small 122 nucleotide (nt) region which spans the 5' splice site of this intron-containing gene. This region comprises only 14% of the total td exon sequence. RNA sequence analysis of these mutants identified a series of frameshift insertion/deletion mutations and indicated a hotspot for proflavin-induced mutations in the 3' end of exon I of the td gene. The mutant sequences at the hotspot site fully support a previously proposed mutagenic mechanism for proflavin-induced mutations in which frameshifts are produced as a consequence of exonuclease or DNA polymerase activity at the 3' ends of nicks in the DNA produced by perturbation of the T4-encoded type II topoisomerase activity by the acridine. Sixteen of the seventeen DNA mutations in the hotspot region can be explained by the model as a consequence of enzymatic processing of nicks at two phosphodiester bonds staggered by 4 base pairs (bp) and located on opposite strands of the DNA. Thus, these mutants exhibit precisely the symmetry expected of topoisomerase-mediated mutagenesis. The DNA sequences of the td hotspot mutants, when considered with the sequences of proflavin-induced mutants in the T4 rIIB and lysozyme genes, confirm the view that proflavin-induced mutations in diverse bacteriophage T4 DNA sequences are all produced by the topoisomerase-dependent mechanisms and do not support the view that classical misalignments in DNA repeats are hotspots for proflavin-induced mutagenesis in T4.
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PMID:A proflavin-induced frameshift hotspot in the thymidylate synthase gene of bacteriophage T4. 768 30

Acridine-induced frameshift mutagenesis in bacteriophage T4 has been shown to be dependent on T4 topoisomerase. In the absence of a functional T4 topoisomerase, in vivo acridine-induced mutagenesis is reduced to background levels. Further, the in vivo sites of acridine-induced deletions and duplications correlate precisely with in vitro sites of acridine-induced T4 topoisomerase cleavage. These correlations suggest that acridine-induced discontinuities introduced by topoisomerase could be processed into frameshift mutations. The induced mutations at these sites have a specific arrangement about the cleavage site. Deletions occur adjacent to the 3' end and duplications occur adjacent to the 5' end of the cleaved bond. It was proposed that at the nick, deletions could be produced by the 3'-->5' removal of bases by DNA polymerase-associated exonuclease and duplications could be produced by the 5'-->3' templated addition of bases. We have tested in vivo for T4 DNA polymerase involvement in nick processing, using T4 phage having DNA polymerases with altered ratios of exonuclease to polymerase activities. We predicted that the ratios of the deletion to duplication mutations induced by acridines in these polymerase mutant strains would reflect the altered exonuclease/polymerase ratios of the mutant T4 DNA polymerases. The results support this prediction, confirming that the two activities of the T4 DNA polymerase contribute to mutagenesis. The experiments show that the influence of T4 DNA polymerase in acridine-induced mutation specificities is due to its processing of acridine-induced 3'-hydroxyl ends to generate deletions and duplications by a mechanism that does not involve DNA slippage.
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PMID:DNA nick processing by exonuclease and polymerase activities of bacteriophage T4 DNA polymerase accounts for acridine-induced mutation specificities in T4. 789 53

The induced expression of multiple drug resistance (MDR)-associated genes as a direct response of tumor cells to antineoplastic drugs could be an important factor influencing the success of cancer chemotherapy. We investigated the effects of such compounds on mdr1/P-glycoprotein (P-gp) gene expression and drug sensitivities in the T-lymphoblastoid human cell line CCRF-CEM and MDR sublines. Thereby, we observed that actinomycin D or adriamycin administered at sublethal concentrations induced increases of mdr1 mRNA levels and resistance within 72 h. Furthermore, on leukemia cell samples collected before and after chemotherapy we checked by a complementary DNA polymerase chain reaction (cDNA-PCR) approach for similar alterations in the relative expression levels of the MDR-associated genes (a) mdr1/P-gp (b) mrp (MDR related protein), and (c) the topoisomerase II isoforms alpha and beta. We found a concomitant increase in mdr1 and mrp gene expression combined with a decreased expression of topoisomerase II alpha in the course of the second relapse of an acute lymphoblastic leukemia (ALL). This points to the emergence of at least three different MDR mechanisms in this type of leukemia unresponsive to chemotherapy. A chronic myeloid leukemia (CML) in blast crisis, however, showed combined increases in mdr1 (about 20-fold) and mrp (about four fold) gene expression after intense but unsuccessful chemotherapy over a 6-month period. Our results indicate the occurrence of induced resistance in vitro and in vivo and suggest a contribution of the newly identified ATP-binding cassette (ABC) transporter MRP in MDR.
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PMID:Drug-induced changes in the expression of MDR-associated genes: investigations on cultured cell lines and chemotherapeutically treated leukemias. 791 48

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