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)

DNA topoisomerase type I and II activities were determined by serial dilution in nuclear extracts from control and ataxia-telangiectasia lymphoblastoid cells. Topoisomerase I activity, assayed by relaxation of supercoiled plasmid DNA, was found to be approximately the same in both cell types. In order to remove interference from topoisomerase I, the activity of topoisomerase II was measured by the unknotting of knotted P4 phage DNA in the presence of ATP. The activity of topoisomerase II was markedly reduced in two ataxia-telangiectasia cell lines, AT2ABR and AT8ABR, compared to controls. This reduction in activity was detected with increasing concentration of protein and in time course experiments at a single protein concentration. A third cell line, AT3ABR, did not have a detectably lower activity of topoisomerase II when assayed under these conditions. The difference in topoisomerase II activity in the ataxia-telangiectasia cell lines examined may reflect to some extent the heterogeneity observed in this syndrome.
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PMID:A defect in DNA topoisomerase II activity in ataxia-telangiectasia cells. 282

A type I topoisomerase has been purified more than 4000-fold from calf thymus mitochondria. The enzyme is membrane associated and is effectively solubilized by 1% Triton X-100 treatment of purified mitochondrial inner membranes. This ATP-independent enzyme relaxes positively and negatively supercoiled DNA with delta LK = 1. At low ionic strength, the native enzyme appears to be a monomer (sedimentation coefficient of 4.3 S and Stokes radius of 34 A), but it can form a weakly associated dimer at higher salt concentrations (sedimentation coefficient of 7.0 S and Stokes radius of 47.5 A). The mitochondrial type I topoisomerase is distinguishable from the nuclear enzyme by its (1) pH profile, (2) thermal stability, (3) response to dimethyl sulfoxide and Berenil, and (4) molecular weight. The mitochondrial enzyme is inhibited by elevated concentrations of the bacterial DNA gyrase inhibitor novobiocin, but not nalidixic or oxolinic acids. Sensitivity to N-ethylmaleimide indicates the importance of cysteine for catalytic activity. It is estimated that there are at least five copies of topoisomerase I per mammalian mitochondrion or a minimum of one to two per mitochondrial genome. In a manner similar to that observed with leukemia (nuclear and mitochondrial), calf thymus (nuclear), and HeLa (nuclear) cell type I topoisomerase, the calf thymus mitochondrial enzyme is inhibited by physiological concentrations of ATP.
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PMID:Purification and characterization of a type I DNA topoisomerase from calf thymus mitochondria. 282 74

The effects of magnesium ions on interactions between Drosophila melanogaster topoisomerase II and its substrates were assessed by a number of kinetic and binding assays. Results indicated that the divalent cation plays two distinct functions in promoting enzyme-substrate interactions. One class of magnesium ions participates directly in enzyme-mediated DNA cleavage reactions. A second class of magnesium ions participates directly in topoisomerase II mediated ATPase reactions and functions by providing the enzyme with a magnesium-ATP substrate. In contrast, the divalent cation did not affect the quaternary structure of the enzyme, was not required for the site-specific binding of topoisomerase II to DNA, and did not affect the enzyme's ability to discern the topological state of its nucleic acid substrate.
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PMID:Role of the divalent cation in topoisomerase II mediated reactions. 282 26

We have found that purified calf thymus DNA topoisomerase II mediates recombination between two phage lambda DNA molecules in an in vitro system. The enzyme mainly produced a linear monomer recombinant DNA that can be packaged in vitro. Novobiocin and anti-calf thymus DNA topoisomerase II antibody inhibit this ATP-dependent recombination. The recombinant molecules contain duplications or deletions, and most crossovers take place between nonhomologous sequences of lambda DNA, as judged by the sequences of recombination junctions. Therefore, the recombination mediated by the calf thymus DNA topoisomerase II is an illegitimate recombination that is similar to recombination mediated by Escherichia coli DNA gyrase or phage T4 DNA topoisomerase. The subunit exchange model, which has been suggested for the DNA gyrase-mediated recombination, is now generalized as follows: DNA topoisomerase II molecules bind to DNAs, associate with each other, and lead to the exchange of DNA strands through the exchange of topoisomerase II subunits. Illegitimate recombination might be carried out by a general mechanism in organisms ranging from prokaryotes to higher eukaryotes.
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PMID:Illegitimate recombination mediated by calf thymus DNA topoisomerase II in vitro. 283 45

This study compares the effects of the epipodophyllotoxin derivatives, VM-26 and VP-16, and the 9-anilinoacridine derivatives, m-AMSA and o-AMSA, on nascent and mature DNA. Two types of lesion which are putatively mediated by topoisomerase II, DNA-protein crosslinks and DNA double-strand breaks, were analyzed in drug-treated nuclei from 3H/14C labelled L1210 cells. Potassium/dodecyl sulfate precipitation assay was used to assess DNA-protein crosslinks in mature and nascent (1 min old) DNA. Both epipodophyllotoxins and m-AMSA showed a strong preference for nascent DNA. DNA double-strand cleavage induced by VM-26 and m-AMSA also showed a preference for nascent DNA as indicated by neutral elution technique. Sedimentation on neutral sucrose gradients revealed that these drugs generated highly degraded fragments (under 30 S) in nascent DNA substantially faster than in mature DNA. Lesions in nascent DNA were diminished substantially by the omission of ATP or the addition of novobiocin. The ability to induce lesions in nascent DNA correlates with cytotoxic potency of the agents studied. The results suggest that replicating DNA may constitute a preferential target for antitopoisomerase II drugs.
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PMID:Topoisomerase-II-mediated lesions in nascent DNA: comparison of the effects of epipodophyllotoxin derivatives, VM-26 and VP-16, and 9-anilinoacridine derivatives, m-AMSA and o-AMSA. 283 25

A topoisomerase capable of introducing positive supercoils into closed-circular DNA has been isolated from the extremely thermophilic anaerobic archaebacterium Desulfurococcus amylolyticus. This polypeptide has an Mr of 135,000, as determined by electrophoresis under denaturing conditions. The enzyme is active in the temperature range from 65 degrees C to 100 degrees C and catalyzes positive supercoiling both in negatively supercoiled DNA and in relaxed DNA. These reactions require the presence of ATP. The enzyme's action on a single topoisomer has shown the linking number to increase by an integral number upon the relaxation of negative supercoils and the introduction of positive ones. This means that the reverse gyrase from D. amylolyticus is a type I topoisomerase. The presence of an extended AT sequence within the closed-circular DNA enhances the activity of the Desulfurococcus topoisomerase. Even though the enzyme is isolated from a strictly anaerobic bacterium, it is fully active in the presence of oxygen.
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PMID:Positive supercoiling catalysed in vitro by ATP-dependent topoisomerase from Desulfurococcus amylolyticus. 283 7

DNA topoisomerase I has been purified to electrophoretic homogeneity from ovaries of the frog Xenopus laevis. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the most purified fraction revealed a single major band at 110 kDa and less abundant minor bands centered at 62 kDa. Incubation of the most purified fraction with immobilized calf intestinal alkaline phosphatase abolished all DNA topoisomerase enzymatic activity in a time-dependent reaction. Treatment of the dephosphorylated X. laevis DNA topoisomerase I with a X. laevis casein kinase type II activity and ATP restored DNA topoisomerase activity to a level higher than that observed in the most purified fraction. In vitro labeling experiments which employed the most purified DNA topoisomerase I fraction, [gamma-32P]ATP, and the casein kinase type II enzyme showed that both the 110- and 62-kDa bands became phosphorylated in approximately molar proportions. Phosphoamino acid analysis showed that only serine residues became phosphorylated. Phosphorylation was accompanied by an increase in DNA topoisomerase activity in vitro. Dephosphorylation of DNA topoisomerase I appears to block formation of the initial enzyme-substrate complex on the basis of the failure of the dephosphorylated enzyme to nick DNA in the presence of camptothecin. We conclude that X. laevis DNA topoisomerase I is partially phosphorylated as isolated and that this phosphorylation is essential for expression of enzymatic activity in vitro. On the basis of the ability of the casein kinase type II activity to reactivate dephosphorylated DNA topoisomerase I, we speculate that this kinase may contribute to the physiological regulation of DNA topoisomerase I activity.
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PMID:Regulation of Xenopus laevis DNA topoisomerase I activity by phosphorylation in vitro. 283 26

The phosphorylation of DNA topoisomerase II in Drosophila Kc tissue culture cells was characterized by in vivo labeling studies and in vitro studies that examined the modification of exogenous enzyme in total homogenates of these embryonic cells. Several lines of evidence identified casein kinase II as the kinase primarily responsible for phosphorylating DNA topoisomerase II. First, the only amino acyl residue modified in the enzyme was serine. Second, partial proteolytic maps of topoisomerase II which had been labeled with [32P]phosphate by Drosophila cells in vivo, by cell homogenates in vitro, or by purified casein kinase II were indistinguishable from one another. Third, phosphorylation in cell homogenates was inhibited by micrograms/ml concentrations of heparin, micromolar concentrations of nonradioactive GTP, or anti-Drosophila casein kinase II antiserum. Fourth, cell homogenates were able to employ [gamma-32P]GTP as a phosphate donor nearly as well as [gamma-32P]ATP. Although topoisomerase II was phosphorylated in homogenates under conditions that specifically stimulate protein kinase C, calcium/calmodulin-dependent protein kinase, or cAMP-dependent protein kinase, modification was always sensitive to anti-casein kinase II antiserum or heparin. Thus, under a variety of conditions, topoisomerase II appears to be phosphorylated primarily by casein kinase II in the Drosophila embryonic Kc cell system.
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PMID:Phosphorylation of DNA topoisomerase II in vivo and in total homogenates of Drosophila Kc cells. The role of casein kinase II. 284 38

A general, unrefined mechanism of type I DNA topoisomerase action involves several steps including DNA binding, single-strand scission, strand passage resealing, and, possibly, readoption of an active enzyme conformation. None of these steps requires an energy cofactor; however, we have shown previously that several mammalian type I topoisomerases are, in fact, inhibited by ATP. In this study, we wanted to examine which steps in the gross topoisomerase mechanism were sensitive or insensitive to ATP. Nitrocellulose filter binding experiments showed that ATP did not interfere with the binding of DNA by the enzyme and that ATP binding by topoisomerase was 5-fold greater in the presence of DNA than in its absence. Agarose gel electrophoresis in the presence or absence of ethidium bromide indicated that resealing was unaffected by added ATP. The addition of the adenine nucleotide did not alter the pattern of camptothecin-stimulated cleavage of DNA, indicating that strand scission was not the point of inhibition. To test whether strand passage or the readoption of an active conformation was an inhibited step, we used a unique DNA topoisomer as substrate. The results argued against readoption of an active enzyme conformation as an ATP-sensitive process.
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PMID:Mechanism of ATP inhibition of mammalian type I DNA topoisomerase: DNA binding, cleavage, and rejoining are insensitive to ATP. 284 29

We have examined the influence of VM26 (teniposide), a specific inhibitor of mammalian type II DNA topoisomerase, on the replication of SV40 minichromosomes in vitro. The replication system we used consists of replicative intermediate SV40 chromatin as substrate which is converted to mature SV40 chromatin in the presence of ATP, deoxynucleotides and a protein extract from uninfected cells. The addition of 100 microM VM26 to this system reduces DNA synthesis to 70 to 80 percent of the control and leads to an accumulation of 'late replicative intermediates'. The VM26 induced block of replication was not released by the addition of large quantities of type I DNA topoisomerase. We conclude, that type II DNA topoisomerase is essential for the final replication steps leading from late Cairns structures of replicative intermediates to monomeric minichromosomes. It appears that type I DNA topoisomerase can function as a swivelase during most of the replicative elongation phase, but must later be replaced by type II DNA topoisomerase.
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PMID:Effects of VM26, a specific inhibitor of type II DNA topoisomerase, on SV40 chromatin replication in vitro. 284 17

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