EC:5.99.1.2 - FACTA Search

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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)

Measurements at various temperatures of the linking number of yeast 2 microns plasmid DNA in wild-type cells and in cells bearing mutations in the DNA topoisomerase I and II genes show that bulk 2 microns plasmid minichromosome are maintained in a relaxed state by the combined action of topoisomerases I and II. Bulk 2 microns minichromosomes are not under torsional stress in vivo and are not substrates for a putative gyrase-like topoisomerase.
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PMID:Both DNA topoisomerases I and II relax 2 micron plasmid DNA in living yeast cells. 300 27

The role of DNA topoisomerases in eucaryotic class III gene transcription in vitro has been studied through the use of inhibitory drugs and antisera to DNA topoisomerases I and II. The DNA topoisomerase II inhibitors, novobiocin and coumermycin AI, were found to inhibit transcription of cloned 5S and tRNA genes. Novobiocin acts by interfering with an ATP-requiring step in the pathway to stable preinitiation complex formation. However, it is unlikely that this step reflects the enzymatic action of DNA topoisomerase II since a specific inhibitor of this enzyme (VM-26) and anti-DNA topoisomerase II antibodies fail to inhibit transcription under conditions where topoisomerase II enzymatic activity is inhibited. Similarly, a specific inhibitor of DNA topoisomerase I (camptothecin) and anti-DNA topoisomerase I antibodies fail to inhibit class III gene transcription. These results argue against a role for either DNA topoisomerase in 5S or tRNA gene transcription in vitro.
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PMID:Novobiocin inhibits RNA polymerase III transcription in vitro by a mechanism distinct from DNA topoisomerase II. 300 85

DNA topoisomerases have been shown to cleave DNA phosphodiester bond and simultaneously become linked to the DNA at the cleavage site via a phosphotyrosine linkage (Tse, Y.-C., Kirkegaard, K., and Wang, J. C. (1980) J. Biol. Chem. 255, 5560-5565). For prokaryotic DNA topoisomerases, this is observed only when denaturant or protease is added to the topoisomerase-DNA incubation mixture. Previous attempts to reform DNA phosphodiester bonds from the covalent protein-DNA complex have been unsuccessful. Using oligonucleotides as substrates, the cleavage reaction of Escherichia coli DNA topoisomerase I occurs spontaneously (Tse-Dinh, Y.-C., McCarron, B. G. H., Arentzen, R., and Chowdhry, V. (1983) Nucleic Acids Res. 11, 8691-8701). Upon reaction with oligo(dA) labeled with 32P using terminal transferase and [alpha-32P]dATP, the enzyme becomes covalently linked to the 32P-labeled oligonucleotide. This 32P label can then be transferred to the 3'-OH end of a linear or nicked duplex DNA molecule subsequently added to the reaction mixture. This phosphodiester bond rejoining reaction can occur at a recessed, blunt, or protruding 3'-end of double-stranded DNA. It requires magnesium ions. These observations suggest that the covalent protein-DNA complex is a true intermediate during topoisomerization. Implications on the structure of prokaryotic type I DNA topoisomerases as compared to their eukaryotic counterparts are discussed.
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PMID:Uncoupling of the DNA breaking and rejoining steps of Escherichia coli type I DNA topoisomerase. Demonstration of an active covalent protein-DNA complex. 301 47

Sundin and Varshavsky (J. Mol. Biol. 132:535-546, 1979) found that nearly two-thirds of simian virus 40 (SV40) minichromosomes obtained from nuclei of SV40-infected cells become singly nicked or cleaved across both strands after digestion with staphylococcal nuclease at 0 degrees C. The same treatment of SV40 DNA causes complete digestion rather than the limited cleavages produced in minichromosomal DNA. We have explored this novel behavior of the minichromosome and found that the nuclease sensitivity is dependent upon the topology of the DNA. Thus, if minichromosomes are pretreated with wheat germ DNA topoisomerase I, the minichromosomal DNA is completely resistant to subsequent digestion with staphylococcal nuclease at 0 degrees C. If the minichromosome-associated topoisomerase is removed, virtually all of the minichromosomes are cleaved to nicked or linear structures by the nuclease treatment. The cleavage sites are nonrandomly located; instead they occur at discrete loci throughout the SV40 genome. SV40 minichromosomal DNA is also cleaved to nicked circles and full-length linear fragments after treatment with the single strand-specific endonuclease S1; this cleavage is also inhibited by pretreatment with topoisomerase I. Thus, it may be that the nuclease sensitivity of minichromosomes is due to the transient or permanent unwinding of discrete regions of their DNA. Direct comparisons of the extent of negative supercoiling of native and topoisomerase-treated SV40 minichromosomes revealed that approximately two superhelical turns were removed by the topoisomerase treatment. The loss of these extra negative supercoils from the DNA probably accounts for the resistance of the topoisomerase-treated minichromosomes to the staphylococcal and S1 nucleases. These findings suggest that the DNA in SV40 intranuclear minichromosomes is torsionally strained. The functional significance of this finding is discussed.
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PMID:Simian virus 40 minichromosomes contain torsionally strained DNA molecules. 301 97

A Rhodopseudomonas capsulata nifH::lacZ gene fusion was used to isolate constitutive mutants of R. capsulata, unable to repress nif gene transcription anaerobically with every fixed-nitrogen source tested. When these nifc strains were grown aerobically, nif gene transcription was repressed. These results indicate that the regulation of nif gene transcription by fixed nitrogen is different from the regulation by oxygen. Under anaerobic conditions, nif gene transcription in both R. capsulata and Klebsiella pneumoniae is specifically prevented by inhibitors of DNA gyrase [DNA topoisomerase type II (ATP-hydrolyzing), EC 5.99.1.3]. A recent study has shown that anaerobically grown Salmonella typhimurium have high DNA gyrase activity, whereas aerobically grown cells have high DNA topoisomerase type I (EC 5.99.1.2) activity and DNA that is more relaxed [Yamamoto, N. & Droffner, M. L. (1985) Proc. Natl. Acad. Sci. USA 82, 2077-2081]. In view of these results, we suggest that the control of nif gene transcription in response to oxygen is determined by the action of DNA gyrase and DNA topoisomerase I. Thus, although nitrogen control of nif gene expression requires the products of regulatory genes for which constitutive mutations can be isolated, oxygen appears instead to prevent the adoption of a DNA conformation necessary, directly or indirectly, for nif gene transcription.
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PMID:Anaerobic regulation of nitrogen-fixation genes in Rhodopseudomonas capsulata. 301 47

Benzisoquinolinedione (nafidimide; NSC 308847) is an investigational drug currently in phase I clinical testing. We have studied the antileukemic activity in vitro, the cellular drug transport, and the molecular mechanism of action with DNA of this new compound. By agarose gel electrophoresis, we verified that nafidimide is an intercalating agent, through its alteration of the electrophoretic migration of DNA products produced by the relaxing action of DNA topoisomerase I. Concentrations of up to 100 microM of nafidimide did not produce topoisomerase I-mediated DNA cleavage. Nafidimide produced DNA single-strand breaks (SSB), double-strand breaks, and DNA-protein cross-links in human myeloid leukemia cells (measured with filter elution). The ratio of SSB/DNA-protein cross-links was 1.32 +/- 0.36, a value similar to that produced by 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), suggesting that nafidimide, like m-AMSA, produced protein-associated DNA-strand breaks through a topoisomerase II-mediated reaction. The production of double-strand breaks by nafidimide also suggests the involvement of topoisomerase II in the drug-induced DNA cleavage. The cytotoxic activity of nafidimide was quantified in human myeloid leukemia cell lines differing by a factor of 70 in their cytotoxic sensitivity to m-AMSA. The m-AMSA-resistant line was less than 2-fold resistant to nafidimide. Cellular drug uptake was rapid and reached a steady state level in 30 min at 37 degrees C. At the end of exposure, drug egress was rapid, as was the disappearance of the DNA SSB. Rapid cellular uptake of nafidimide, with low retention at the end of exposure and rapid rejoining of DNA SSB suggest that prolonged cellular exposure may be necessary for optimal antitumor effect. In vitro cloning data suggest that nafidimide may be a therapeutic option for patients with leukemia resistant to m-AMSA.
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PMID:In vitro toxicity and DNA cleaving capacity of benzisoquinolinedione (nafidimide; NSC 308847) in human leukemia. 302 21

Insertion and deletion mutagenesis within the gene topA of Escherichia coli encoding DNA topoisomerase I was carried out to test the existence of subdomains in the enzyme and the relationship between the slow-growth topA- phenotype and the known DNA relaxation activity of the enzyme. All mutants that show no detectable DNA relaxation activity in cell extracts fail to complement the temperature-sensitive growth defect of strain AS17 topAam harboring a plasmid-borne temperature-sensitive suppressor tRNA. All mutants that show partial or full levels of DNA relaxation activity in cell extracts (relative to activity in extracts of wild-type cells) can complement this defect. The carboxyl-proximal 25% of the enzyme appears to be in a domain that is dispensable both in terms of the catalytic function of the enzyme and its biological role. Analysis of the mutant enzyme also indicates that the formation of the covalent topoisomerase-DNA complex is correlated with the DNA relaxation activity, which supports the notion that the covalent complex is an obligatory intermediate in the catalysis of DNA topoisomerization.
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PMID:Probing the structural domains and function in vivo of Escherichia coli DNA topoisomerase I by mutagenesis. 302 80

We examined the roles of DNA topoisomerases in the replication of simian virus 40 (SV40) DNA in a cell-free system composed of an extract from HeLa cells supplemented with purified SV40 tumor antigen. When the activities of both topoisomerase I (EC 5.99.1.2) and topoisomerase II (EC 5.99.1.3) in the extract were blocked with specific inhibitors or antibodies, DNA synthesis was decreased by a factor of 15-20. Addition of purified HeLa DNA topoisomerase II to extracts immunologically depleted of both topoisomerases completely restored replication, and the replication products consisted largely of monomeric daughter molecules. Addition of purified HeLa DNA topoisomerase I to depleted extracts restored DNA synthesis, but the primary products were multiply intertwined, catenated daughter molecules. We conclude that DNA topoisomerases have at least two roles in the replication of SV40 DNA. Either topoisomerase I or topoisomerase II is sufficient to provide the unlinking activity necessary for fork propagation during SV40 DNA replication. However, topoisomerase II is uniquely required for the segregation of newly synthesized daughter molecules.
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PMID:Roles of DNA topoisomerases in simian virus 40 DNA replication in vitro. 302 65

We have previously shown that heparin is a potent inhibitor of a mammalian DNA topoisomerase I. We have now investigated the mechanism of its inhibition. This was carried out first by scrutinizing the structural features of heparin molecules responsible for the inhibition. Commercial heparin preparation was fractionated by antithrombin III-Sepharose into non-adsorbed, low-affinity and high-affinity fractions, of which only the high-affinity fraction of heparin is known to contain a specific oligosaccharide sequence responsible for the binding to antithrombin III. These fractions all exhibited essentially similar inhibitory activities. Furthermore, when chemically sulphated to an extent comparable with or higher than heparin, otherwise inactive glycosaminoglycans such as heparan sulphate, chondroitin 4-sulphate, dermatan sulphate and neutral polysaccharides such as dextran and amylose were converted into potent inhibitors. Sulphated dermatan sulphate, one of the model compounds, was further shown to bind competitively to the same sites on the enzyme as heparin. These observations strongly suggested that topoisomerase inhibition by heparin is attributable primarily, if not entirely, to the highly sulphated polyanionic nature of the molecules. In a second series of experiments we examined whether heparin inhibits only one or both of the topoisomerase reactions, i.e. nicking and re-joining. It was demonstrated that both reactions were inhibited by heparin, but the nicking reaction was more severely affected than was the re-joining reaction.
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PMID:Mechanism of inhibition of mammalian DNA topoisomerase I by heparin. 303 52

The fraction DE-B obtained by fractionating an extract from rat mammary adenocarcinoma cells on a DEAE-Sephadex column was used for transcribing linear and supercoiled rRNA gene (rDNA). This fraction, which is known to contain RNA polymerase I and essential transcription factors, also contains DNA topoisomerase I activity. Inhibition of this topoisomerase activity by the selective inhibitor camptothecin markedly diminished transcription of supercoiled rDNA, and at a concentration of 150 microM, camptothecin almost completely inhibited DNA topoisomerase I activity and supercoiled rDNA transcription. Addition of exogenous calf thymus DNA topoisomerase I to the sample containing the drug restored the ability of the extract to transcribe supercoiled rDNA. Camptothecin, even at a concentration of 500 microM, had no significant effect on the transcription of linear rDNA. These studies show that relaxation of supercoiled rDNA by DNA topoisomerase I is essential for its transcription. The preferential inhibition of rRNA synthesis in vivo following treatment with camptothecin is probably due to selective camptothecin inhibition of DNA topoisomerase I activity.
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PMID:Role of DNA topoisomerase I in the transcription of supercoiled rRNA gene. 303 39

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