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Query: EC:5.99.1.3 (topoisomerase)
 9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 175 kdalton (kDa) polypeptide is bound covalently to the chromosomal DNA fragments from mouse cells exposed to the intercalating agent 4'-[(9-acridinyl)-amino]methansulphon-m-anisidide. Electron microscopy shows a terminal protein on the DNA fragments, whose 5'-termini are blocked. Since the relative molecular mass of topoisomerase II polypeptide chains is also about 175 kDa and topoisomerase II inhibitors prevent intercalator-induced DNA fragmentation, we propose that the polypeptide bound covalently to the 5'-terminus of the DNA fragments is a polypeptide derived from frequently integrated topoisomerase II operating to normalize torsional stress resulting from intercalation.
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PMID:Chromosomol DNA fragments from mouse cells exposed to an intercalating agent contain a 175-kdalton terminal polypeptide. 384 52

A protein kinase activity has been identified that is tightly associated with the purified Drosophila type II DNA topoisomerase. The kinase and topoisomerase activities are not separated when the enzyme is subjected to analytical chromatography (phosphocellulose, single-strand DNA agarose, and Sephacryl S-300) and analytical glycerol gradient sedimentation. These two activities are also inactivated to the same extent by either heat or N-ethylmaleimide treatment. The evidence, however, does not rule out the possibility that the kinase activity resides in a polypeptide other than the topoisomerase polypeptide. The topoisomerase-associated protein kinase activity is not stimulated by Ca2+ or cyclic nucleotides. It shows a broad substrate range, including the DNA topoisomerase itself, casein, phosvitin, and histones. Phosphoamino acid analysis identified phosphoserine and phosphothreonine in polypeptides modified by the topoisomerase-associated protein kinase. No similar activity has been identified previously in Drosophila melanogaster.
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PMID:A protein kinase activity tightly associated with Drosophila type II DNA topoisomerase. 609 62

A topoisomerase activity was purified from mature ovaries and from nuclei of stage 6 oocytes of Xenopus laevis. From both preparations we obtained a single polypeptide chain having an estimated molecular weight of 67,000. The enzyme purified from ovaries is active in the presence of 150 mM monovalent cation, but its activity is more than 1 order of magnitude higher in the presence of 6 mM Mg2+; the enzyme purified from nuclei requires Mg2+ through all the steps of purification. Enucleated oocytes are devoid of topoisomerase activity but are able to convert the nuclear enzyme to a species active also in the presence of monovalent cations. The difference in ionic requirement between the nuclear topoisomerase and the enzyme purified from ovaries as well as the topoisomerases from other eukaryotic sources, which are most active in the presence of monovalent cations, may depend on the source of the enzyme and/or on the extraction procedure. Ovarian and nuclear topoisomerases catalyze relaxation of both negatively and positively superhelical DNA; the relaxed isomers produced in the presence of Mg2+ have a few positive superhelical turns.
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PMID:Purification and characterization of Xenopus laevis type I topoisomerase. 626 Jul 73

The DNA topoisomerase from Agrobacterium tumefaciens has been purified to apparent homogeneity. The enzyme is a single polypeptide of about 100,000 in molecular weight. No apparent separation of the nicking and sealing activities could be obtained in attempts to separate the two activities by a variety of methods, including limited protease digestion, thermal denaturation, and differential inhibition. Monoclonal antibodies obtained from hybridomas likewise did not preferentially inhibit one of the two activities. These results suggest that the two catalytic functions are carried by the same essential residues of the active enzyme site.
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PMID:DNA topoisomerase from Agrobacterium tumefaciens: purification and catalytic properties. 626 20

Wheat germ contains an enzyme capable of removing supercoils from circular DNA. We have purified this enzyme using Polymin P fractionation, ammonium sulfate precipitation, and chromatography on Bio-Rex 70 and phenyl-Sepharose. Renaturation after electrophoresis on sodium dodecyl sulfate-polyacrylamide gels shows that topoisomerase activity is associated with a polypeptide with a Mr = about 111,000. The enzyme is similar to other eukaryotic type I DNA topoisomerases (nicking-closing enzymes) by the following criteria: it is capable of increasing or decreasing the topological linking number of covalently closed DNA substrate; it is capable of restoring an equilibrium distribution of linking numbers to DNA substrate with a single unique linking number; and it does not require magnesium ion or ATP for activity.
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PMID:Purification and characterization of wheat germ DNA topoisomerase I (nicking-closing enzyme). 626 92

Using kinetoplast DNA networks as a substrate in a decatenation assay, we have purified to apparent homogeneity a type II DNA topoisomerase from HeLa cell nuclei. The most pure preparations contain a single polypeptide of 172,000 daltons as determined by sodium dodecyl sulfate-gel electrophoresis. The molecular weight of the native protein, based on sedimentation and gel filtration analyses, is estimated to be 309,000. These results suggest that the enzyme is a dimer of 172,0090-dalton subunits. The enzyme is a type II topoisomerase as demonstrated by its ability to change the linking number of DNA circles in steps of two and to decatenate or unknot covalently closed DNA circles. No gyrase activity is detectable. ATP is required for the relaxation, decatenation, and unknotting of DNA, and a DNA-dependent ATPase activity is present in the most pure fractions. ATP is hydrolyzed to ADP in this properties to T4 DNA topoisomerase (Liu, L. F., Liu, C. C., and Alberts, B. M. (1979) Nature 281, 456-461).
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PMID:A homogeneous type II DNA topoisomerase from HeLa cell nuclei. 626 71

A type I topoisomerase has been purified from avian erythrocyte nuclei. The most pure fraction contains one major polypeptide of Mr = 105,000 (80% of total) and several minor ones of lower molecular weight. Active forms of the topoisomerase were identified by covalently binding the enzyme to 32P-DNA, digesting with nuclease and detecting 32P labeled peptides by sodium dodecyl sulfate polyacrylamide gel electrophoresis. Topoisomerase activity, as measured by the ability to covalently bind DNA, is associated with the following peptides: Mr = 105, 83, 54 and 30,000. The similar chromatographic properties of the various forms of topoisomerase suggests a common structural identity as previously proposed for the HeLa topoisomerase I (Liu, L.F. and Miller, K.G. (1981) Proc. Natl. Acad. Sci. USA 78, 3487-3491). The avian enzyme is similar to other eucaryotic type I DNA topoisomerases in that it covalently binds double and single stranded DNA forming an enzyme linked to the 3'-phosphoryl end and after binding to single stranded DNA it can transfer the single stranded donor DNA to an acceptor DNA possessing 5'-OH end groups. The binding site size of topoisomerase on DNA has also been determined using micrococcal nuclease to digest unprotected DNA in the native enzyme/DNA complex. The enzyme blocks access to the helix over a span of 25 bp. These findings are discussed in light of the distribution and function of topoisomerase I in chromatin.
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PMID:Biochemical characterization of topoisomerase I purified from avian erythrocytes. 630 57

The purified type II DNA topoisomerase from the embryos of Drosophila melanogaster exists in its native form as a dimer of 170,000-dalton polypeptides. In addition to the 170,000-dalton polypeptides, 3 polypeptides with molecular weights of 151,000, 141,000, and 132,000 were resolved when the enzyme was analyzed by electrophoresis under denaturing conditions. All four polypeptides can participate in the topoisomerase cleavage reaction and form covalent complexes with the cleaved DNA. Furthermore, immunochemical and biochemical data showed that they are structurally related and, therefore, the smaller polypeptides are likely generated from the 170,000-dalton polypeptide by proteolysis. The double strand DNA cleavage reaction of Drosophila topoisomerase has different site specificity from the Escherichia coli DNA gyrase-effected reaction. However, they result in an identical DNA structure at the cleavage site, which is a staggered double strand break with 4-nucleotide long 5'-protruding ends. The 3'-ends at the site of cleavage by Drosophila topoisomerase II have free hydroxyl groups and can be extended by exactly 4 nucleotides with T4 DNA polymerase, while the 5'-ends are covalently linked to the topoisomerase molecules. This similarity in cleavage site structure for Drosophila topoisomerase II and E. coli DNA gyrase suggests that they share some fundamental features in their mechanism of action.
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PMID:Double strand DNA cleavage by type II DNA topoisomerase from Drosophila melanogaster. 630 84

A type II DNA topoisomerase has been purified from the nuclei of Drosophila melanogaster 6- to 18-h-old embryos. The enzyme, as assayed by its ability to catenate supercoiled DNA, behaved as a single homogeneous species throughout the procedure and the yield was approximately 0.5 mg of protein/100 g of dechorionated embryos. The final product was entirely ATP-dependent and free of topoisomerase I, endonuclease and protease activities. The purified topoisomerase II had a Stokes radius of 69 A and a sedimentation coefficient (S20,w) of 9.2 S, leading to a calculated native molecular weight of approximately 261,000. The protein consists of a single polypeptide of molecular weight 166,000, as determined by electrophoresis on sodium dodecyl sulfate-polyacrylamide gels. Taken together with the above hydrodynamic studies, the Drosophila enzyme is probably a homodimer, as has been observed for other eukaryotic type II enzymes. Thus, it appears that during the course of evolution the heterologous subunits which comprise bacterial type II topoisomerases have been combined into a single polypeptide chain in eukaryotes.
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PMID:DNA topoisomerase II from Drosophila melanogaster. Purification and physical characterization. 630 10

Nuclear novobiocin binding proteins (NBPs) from a set of mouse L cells have been extensively purified by affinity chromatography on novobiocin-Sepharose columns. The NBPs, specifically eluted with 100 micrograms of novobiocin per ml, exhibited equivalent DNA topoisomerase activities (measured as ATP-dependent relaxation or catenation of phi X174 replicative-form I DNA substrate) when extracted from equal numbers of wild-type (WT-4) mouse L cells growing logarithmically at 34 degrees C or at 38.5 degrees C, from ts A1S9 cells similarly cultivated at the low, permissive temperature or from revertant ts+ AR cells in exponential growth at either temperature. The NBPs isolated from similar numbers of ts A1S9 cells grown to midlogarithmic phase and then incubated for 24 hr at 38.5 degrees C (the nonpermissive temperature) showed no topoisomerase II activity. Preliminary NaDodSO4/polyacrylamide gel electrophoretic analysis of enzymatically active material revealed that the NBPs of WT-4 and ts+ AR cells grown at 34 degrees C comprised three major polypeptides of 76,000, 74,000, and 30,000 daltons and a number of larger molecular mass components present in trace amounts. The NBP of ts A1S9 cells grown at the permissive temperature was similar, except that the 30,000-kilodalton polypeptide was not detected. Such enzymatically active NBPs from WT-4 and ts+ AR cells were unaffected by 100 micrograms of novobiocin per ml, whereas the analogous preparation from ts A1S9 cells was totally inhibited. On the basis of these and other considerations, it is postulated that the ts A1S9 locus of mouse L cells encodes a temperature-sensitive polypeptide that is required for normal DNA topoisomerase II activity.
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PMID:ts A1S9 locus in mouse L cells may encode a novobiocin binding protein that is required for DNA topoisomerase II activity. 630 35


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