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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)

DNA topoisomerase I was required for bidirectional DNA replication in an in vitro system for Simian virus 40 (SV40) DNA replication with purified proteins in which the replication fork moved at the rate of 260 nucleotides/min on average. DNA topoisomerase I purified from camptothecin-resistant human lymphoblastoid cells, which confers high resistance of cellular DNA replication to camptothecin [Andoh, T., Ishii, K., Suzuki, Y., Ikegami, Y., Kusunoki, Y., Takemoto, Y. & Okada, K. (1987) Proc. Natl Acad. Sci. USA 84, 5565-5569], was characterized using this system. The activity of stimulating bidirectional DNA replication was comparable between two topoisomerase I from parental and resistant cells, i.e. in its dose-response relationship and in its time course for DNA synthesis. Camptothecin severely inhibited the leading as well as the lagging strand synthesis in the reaction containing the wild type topoisomerase I but not the mutant type topoisomerase I. The mutant type topoisomerase I was over 125-fold as resistant to camptothecin as the wild type topoisomerase I. These results are in good agreement with those on the sensitivity of cellular DNA synthesis to camptothecin in the resistant cells. These findings suggest that topoisomerase I is involved in cellular DNA replication as a swivelase and the mutation conferring camptothecin-resistance on the enzyme does not affect its functional efficiency in this system.
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PMID:Characterization of a camptothecin-resistant human DNA topoisomerase I in an in vitro system for Simian virus 40 DNA replication. 166 15

DNA topoisomerase II was isolated from mouse leukemia L1210 cells and the activity was determined by using P4 phage knotted DNA and pBR 322 DNA as the substrates. Based on these results, a method for screening antitumor agents by using DNA topoisomerase II as a target was established. The experiments showed that DNA topoisomerase II catalyzed pBR 322 DNA breaking and relaxing which were reversible and dependent on ATP. The activity was increased 2-4 times in the presence of ATP 1 mmol.L-1. In contrast with type II enzyme, the activity of DNA topoisomerase I was completely inhibited in the presence of ATP 1 mmol.L-1 and had full activity in the absence of ATP. Type II enzyme also showed the unknotting activity by using p4 phage knotted DNA as a substrate. DNA cleavage and relaxing reaction induced by type II enzyme increased 5-fold in the presence of Doxorubicin (Dox) 1 microgram.ml-1 or daunorubicin (Dau). Etoposide (Eto) and aclarubicin B (Acl B) also stimulated the reaction at 100 micrograms.ml-1. The cleavage reaction resulted from topoisomerase II was inhibited by other agents, such as frankincense extracts, terpenic compounds (BC series).
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PMID:Determination of DNA topoisomerase II activity from L1210 cells--a target for screening antitumor agents. 166 90

The activity of DNA topoisomerase I present in the nuclear extract of yeast, Saccharomyces cerevisiae, was inhibited by additions of NAD, the substrate of poly (ADP-ribose) polymerase. This NAD-inhibited topoisomerase activity was restored to the normal level in a dose-dependent manner by adding 3-aminobenzamide (3-AB), an inhibitor of the polymerase. The 3-AB sensitive polymerase enzyme activity, as determined by the rate of incorporation of the radiolabelled NAD in permeabilized cells, increased by treatment of cells with methyl methanesulfonate (MMS) in a dose-dependent manner. While the additions of MMS increased the polymerase activity, it has caused a decrease in cell survival. However, this cell killing activity of MMS was markedly potentiated by adding benzamide, another inhibitor of polymerase. Thus, these results suggest that the mode of modification of nuclear proteins by altering the poly(ADP-ribosylation) in S. cerevisiae resembles with those observed in mammalian cells.
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PMID:Inhibition of topoisomerase I by NAD and enhancement of cytotoxicity of MMS by inhibitors of poly(ADP-ribose) polymerase in Saccharomyces cerevisiae. 166 35

Cleavage of linear duplex DNA by purified vaccinia virus DNA topoisomerase I occurs at a conserved sequence element (5'-C/T)CCTT decreases) in the incised DNA strand. Oligonucleotides spanning the high affinity cleavage site CCCTT at nucleotide 2457 in pUC19 DNA are cleaved efficiently in vitro, but only when hybridized to a complementary DNA molecule. As few as 6 nucleotides proximal to the cleavage site and 6 nucleotides downstream of the site are sufficient to support exclusive cleavage at the high affinity site (position +1). Single nucleotide substitutions within the consensus pentamer have deleterious effects on the equilibria of the topoisomerase binding and DNA cleavage reactions. The effects of base mismatch within the pentamer are more dramatic than are the effects of mutations that preserve base complementarity. Competition experiments indicate that topoisomerase binds preferentially to DNA sites containing the wild-type pentamer element. Single-stranded DNA containing the sequence CCCTT in the cleaved stand is a more effective competitor than is single-stranded DNA containing the complementary sequence in the noncleaved strand.
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PMID:Site-specific DNA cleavage by vaccinia virus DNA topoisomerase I. Role of nucleotide sequence and DNA secondary structure. 184 64

DNA in bacterial cells is under negative superhelical tension, a feature that facilitates many of the activities of DNA. Supercoiling is introduced enzymatically by DNA gyrase, and the accumulation of excessively high levels is prevented by the relaxing activity of DNA topoisomerase I. Among the factors likely to influence supercoiling are topoisomerase gene expression, the ratio of ATP to ADP concentration, and processes such as transcription that unwind DNA and then translocate along it.
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PMID:Bacterial topoisomerases and the control of DNA supercoiling. 196 69

Short-term (2-6 h) exposure of human promyelocytic HL-60 cell cultures to the DNA topoisomerase I inhibitor camptothecin (0.05-0.5 microgram/ml) or to the topoisomerase II inhibitor, teniposide (VM-26; 0.3-3.0 micrograms/ml) or 4'-(9-acridinylamino)methanesulfon-m-anisidide (amsacrine; 0.8 microgram/ml) triggered rapid degradation of DNA specifically in S-phase cells. As a result of the selective death of S-phase cells, only G1 cells remained in these cultures. On the other hand, mitoxantrone (0.02-0.4 microgram/ml) or doxorubicin (adriamycin; 0.4-10.0 micrograms/ml) did not induce DNA degradation in S phase but arrested HL-60 cells in S and G2 phases. In contrast to HL-60 cells, human lymphocytic leukemic MOLT-4 cells responded to all of these drugs (camptothecin, teniposide, amsacrine, mitoxantrone, and adriamycin) at all concentrations tested, invariably by being arrested in G2 and S phases and also by entering a higher DNA ploidy cycle. The data illustrate the differences in the sensitivity of S-phase cells in myelogenous versus lymphocytic leukemic lines to both DNA topoisomerase I and II inhibitors and emphasize the tissue (leukemia type)-specific factors that modulate the cytostatic and cytotoxic effects of these inhibitors. The qualitatively different response of HL-60 cells to camptothecin, teniposide, or amsacrine (by rapidly triggered DNA degradation in S phase) as compared to mitoxantrone or adriamycin (by cell arrest in G2 and S) suggests that, despite the generally assumed common mode of action attributed to these drugs (i.e., via stabilization of the cleavable DNA-topoisomerase complexes), there are significant differences in the mechanisms by which they exert cytostatic/cytotoxic effects.
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PMID:Camptothecin, teniposide, or 4'-(9-acridinylamino)-3-methanesulfon-m-anisidide, but not mitoxantrone or doxorubicin, induces degradation of nuclear DNA in the S phase of HL-60 cells. 199 59

There is multiple evidence linking the inhibition of DNA topoisomerases I and II with the cytotoxic effects of antitumor drugs such as camptothecin and the DNA intercalators, 4-(9-acridinylamino)methanesulfon-m-anisidine) (mAMSA) and Adriamycin. We have assessed the effect of the DNA intercalator 3-nitrobenzothiazolo(3,2-a)quinolinium (NBQ) on the DNA topoisomerase I and II activities. NBQ has no effect on the activity of purified topoisomerase I, whereas it induced purified topoisomerase II binding to DNA without inducing DNA scission. Above 30 microM, NBQ stimulated formation of double- and single-strand breaks mediated by topoisomerase II in plasmid DNA. Using the alkaline elution technique we determined that NBQ induced single-strand and DNA-protein-associated breaks in the human promyelocytic leukemia cell line HL-60. At sublethal concentrations (less than or equal to 1 microM), NBQ induce HL-60 cells to differentiate. Topoisomerase II-mediated DNA cleavage induced by mAMSA was substantially reduced in NBQ-differentiated cells. Our data suggest that topoisomerase II could play a major role in the biological activity of NBQ in vivo.
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PMID:Interaction of DNA intercalator 3-nitrobenzothiazolo (3,2-a)quinolinium with DNA topoisomerases: a possible-mechanism for its biological activity. 215 51

Fostriecin causes a delayed inhibition of replicative DNA synthesis in human cells, consistent with a role for DNA topoisomerase II (its target enzyme) at a late stage in replication. Fostriecin does not inhibit UV-induced excision repair. The less specific inhibitor novobiocin blocks repair in permeabilised cells given a low dose of UV, presumably through a mechanism other than the inhibition of topoisomerase II. Its effect cannot be accounted for by a depletion of the ATP required for incision. Camptothecin, an inhibitor of DNA topoisomerase I, blocks replicative DNA synthesis immediately but incompletely, suggesting a participation of topoisomerase I at the replication fork, but it, too, has no influence on DNA repair. We thus find no evidence for involvement of either topoisomerase I or II in the response of cells to UV damage.
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PMID:Comparison of effects of fostriecin, novobiocin, and camptothecin, inhibitors of DNA topoisomerases, on DNA replication and repair in human cells. 215 21

We have developed a simple, effective genetic screen for mutant alleles of eukaryotic DNA topoisomerase I that manifest severely depressed or complete loss of enzymatic function. The screen is based on the extreme toxicity of vaccinia topoisomerase expression in the Escherichia coli lysogen strain BL21(DE3) and is notable for its ease in distinguishing nonsense mutations (that result in truncated proteins) from missense mutations. The power of the method is evinced by our observation that 100% of the candidate alleles identified in the screen were ultimately found to have single-base changes at the DNA level that result in amino acid substitutions at the protein level. By mutagenizing plasmid DNA in vitro with hydroxylamine and applying this phenotypic screen, we have isolated five distinct single amino acid substitution mutants, each of which shows a biochemical phenotype, that is, greater than or equal to 90% reduction in specific DNA relaxing activity of the mutant protein relative to wild type. The amino acids thus implicated in topoisomerase function have identical or related counterparts at homologous positions in the topoisomerases from yeast and man. The same genetic screen has been applied to the selection of temperature-sensitive alleles of the vaccinia topoisomerase, leading to the isolation of two additional single-hit mutant alleles that display a temperature-sensitive growth phenotype in E. coli BL21(DE3). By broadening our mutagenesis procedures, we expect to generate a comprehensive map of vaccinia topoisomerase function and primary protein structure that should have direct application to eukaryotic cellular enzymes. Our methodology should be applicable to the selection of missense and conditional mutant alleles in other genes whose expression in bacteria is toxic.
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PMID:Phenotypic selection and characterization of mutant alleles of a eukaryotic DNA topoisomerase I. 216 40

Type I topoisomerases (EC 5.99.1.2) are those enzymes capable of relaxing negatively supercoiled DNA without the need for ATP. The central role played by these enzymes in cell function suggests that the structure of type I topoisomerases may be highly conserved in eukaryotic cells. However, the extent of the conservation among eukaryotes is unknown. Human DNA topoisomerase I is an autoimmune antigen (Scl-70) of scleroderma patients. We have found that the autoimmune antibodies in human Scl-70 sera recognize protein from various plants, and these proteins display DNA relaxation function. In addition, Scl-70 antibodies were able to inhibit enzymatic activity of plant topoisomerase I. Therefore, the immunological cross-reactivity of the plant topoisomerase with human antibodies demonstrates that, despite divergence of eukaryotic organisms, these plant and animal enzymes retain structurally similar enzymatic features.
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PMID:Plant DNA topoisomerase I is recognized and inhibited by human Scl-70 sera autoantibodies. 216 85

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