Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.3 (topoisomerase)
 9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During purification of the type I DNA topoisomerase from calf thymus mitochondria, two polypeptides, p78 and p63, cofractionate with the enzymatic activity (Lazarus et al., (1987) Biochemistry 26, 6195-6203). The two polypeptides are released from a mitochondrial inner membrane preparation by nonionic detergent lysis and both adsorb strongly to a single-stranded DNA agarose column. We have attempted to characterize the relationship between these two polypeptides and have found the following: (i) the mitochondrial topoisomerase is active in free (monomer) and associated (heterodimer) form; (ii) the catalytic activity resides solely in p78, as adjudged by both the covalent linkage of the enzyme to substrate DNA and the ability of the enzyme to relax supercoils; (iii) at low ionic strength the enzyme is active in monomer form with p78 alone being sufficient for activity; (iv) in high salt, the high molecular weight species is a 140-kDa heterodimer composed of one p78 and one p63; and (v) the two polypeptides are not structurally related as digestion with V8 protease results in distinct proteolytic fragment patterns. These results suggest that p63 may have an important role in the metabolism of the mitochondrial topoisomerase.
 ...
PMID:DNA topoisomerase I from calf thymus mitochondria is associated with a DNA binding, inner membrane protein. 131 Nov 59

An ATP-independent DNA topoisomerase has been isolated from chloroplasts of cauliflower leaves (Brassica oleracea var. botrytis) through DEAE-cellulose, AF-blue Toyopearl, and hydroxyapatite column chromatography. The sedimentation coefficient and Stokes radius of this enzyme are 3.6S and 3.6 nm, respectively, and the molecular weight of native enzyme is estimated to be 54,000. This enzyme changes the linking number in steps of one. The enzyme activity is stimulated by MgCl2, and this enzyme shows optimum activity at 30 degrees C in the range of 3 mM MgCl2 + 100 mM KCl-10 mM MgCl2 + 50 mM KCl. The enzyme activity was reduced remarkably by N-ethylmaleimide, indicating that a free sulfhydryl group is important for the activity; heparin and ellipticine also reduced the activity. Both cauliflower chloroplast topoisomerase and spinach chloroplast topoisomerase can relax positive supercoils as well as negative supercoils. From these properties, cauliflower chloroplast topoisomerase can be classified as a eukaryotic type I DNA topoisomerase.
 ...
PMID:Chloroplast DNA topoisomerase I from cauliflower. 184 83

Vaccinia virus encodes a type I DNA topoisomerase whose function in virus replication is not known. To determine whether topoisomerase is required for growth of vaccinia in cell culture, we attempted to isolate null mutations in the topoisomerase gene through insertional mutagenesis. Plasmids containing mutant topoisomerase alleles were constructed by intragenic insertion of the Escherichia coli gpt gene. Recombinant viruses containing the gpt insertion were isolated by selection for growth in the presence of mycophenolic acid. Analysis of the genome structures of drug-resistant viruses revealed that in every case (n = 22) both the wild-type and the gpt-inserted allele were present in viral DNA. We interpret the retention of the wild-type allele as indicative of the essential nature of the topoisomerase gene for vaccinia virus growth.
 ...
PMID:Insertional mutagenesis of the vaccinia virus gene encoding a type I DNA topoisomerase: evidence that the gene is essential for virus growth. 254 48

We have isolated DNA polymerases and topoisomerases from two thermoacidophilic archaebacteria: Sulfolobus acidocaldarius and Thermoplasma acidophilum. The DNA polymerases are composed of a single polypeptide with molecular masses of 100 and 85 kDa, respectively. Antibodies against Sulfolobus DNA polymerase did not cross react with Thermoplasma DNA polymerase. Whereas the major DNA topoisomerase activity in S. acidocaldarius is an ATP-dependent type I DNA topoisomerase with a reverse gyrase activity, the major DNA topoisomerase activity in T. acidophilum is a ATP-independent relaxing activity. Both enzymes resemble more the eubacterial than the eukaryotic type I DNA topoisomerase. We have found that small plasmids from halobacteria are negatively supercoiled and that DNA topoisomerase II inhibitors modify their topology. This suggests the existence of an archaebacterial type II DNA topoisomerase related to its eubacterial and eukaryotic counterparts. As in eubacteria, novobiocin induces positive supercoiling of halobacterial plasmids, indicating the absence of a eukaryotic-like type I DNA topoisomerase that relaxes positive superturns.
 ...
PMID:Studies on DNA polymerases and topoisomerases in archaebacteria. 254 77

Vaccinia virus encapsidates a type I DNA topoisomerase (EC 5.99.1.2). The enzyme was purified from virus cores to apparent homogeneity, yielding a protein of Mr 32,000. The amino-terminal sequence of the isolated Mr 32,000 polypeptide was determined and used to map the putative structural gene for the vaccinia topoisomerase to the H7r open reading frame of the vaccinia genome. This gene encodes a 314-amino acid polypeptide containing a region homologous to a region of the type I topoisomerase from the yeast Saccharomyces cerevisiae.
 ...
PMID:Identification of a vaccinia virus gene encoding a type I DNA topoisomerase. 282 64

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.
 ...
PMID:Mechanism of ATP inhibition of mammalian type I DNA topoisomerase: DNA binding, cleavage, and rejoining are insensitive to ATP. 284 29

The putative structural gene encoding the vaccinia virus type I DNA topoisomerase (EC 5.99.1.2) was expressed in Escherichia coli under the control of a bacteriophage T7 promoter. Provision of T7 RNA polymerase resulted in the accumulation to high level of a Mr = 33,000 type I topoisomerase with the properties of the vaccinia enzyme. A simple purification scheme yielded approximately 8 mg of recombinant vaccinia topoisomerase from 400 ml of bacteria. DNA unwinding by the enzyme was stimulated by magnesium, manganese, calcium, cobalt, and spermidine, but inhibited by copper and zinc. Like eukaryotic cellular type I topoisomerases, but unlike the prokaryotic counterpart, the recombinant topoisomerase relaxed positively and negatively supercoiled DNA. The viral topoisomerase I was, however, resistant to the effects of camptothecin, a drug that specifically inhibits cellular type I topoisomerases.
 ...
PMID:Characterization of vaccinia virus DNA topoisomerase I expressed in Escherichia coli. 284 43

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.
 ...
PMID:Effects of VM26, a specific inhibitor of type II DNA topoisomerase, on SV40 chromatin replication in vitro. 284 17

The structure of replicating simian virus 40 minichromosomes, extracted from camptothecin-treated infected cells, was investigated by biochemical and electron microscopic methods. We found that camptothecin frequently induced breaks at replication forks close to the replicative growth points. Replication branches were disrupted at about equal frequencies at the leading and the lagging strand sides of the fork. Since camptothecin is known to be a specific inhibitor of type I DNA topoisomerase, we suggest that this enzyme is acting very near the replication forks. This conclusion was supported by experiments with aphidicolin, a drug that blocks replicative fork movement, but did not prevent the camptothecin-induced breakage of replication forks. The drug teniposide, an inhibitor of type II DNA topoisomerase, had only minor effects on the structure of these replicative intermediates.
 ...
PMID:Camptothecin, a specific inhibitor of type I DNA topoisomerase, induces DNA breakage at replication forks. 285 Apr 77

A method has been used to quantitate the reaction between eukaryotic type I DNA topoisomerase and topological forms of DNA. This procedure (Trask, D.K., DiDonato, J.D. and Muller, M.T. (1984) Eur. Mol. Biol. Organ. J. 3, 671-676) measures the efficiency of DNA cleavage and concurrent formation of a covalent enzyme/DNA complex. Eukaryotic type I topoisomerases react preferentially by 5-10-fold with supercoiled DNA. The effect of supercoiling is clearly evident in that both the initial rate and final extent of the reaction is elevated. Because the dissociation rate is much lower than the association rate, it is possible to isolate native topoisomerase/DNA complexes. These complexes are comprised of enzyme molecules which are catalytically active when challenged with a second supercoiled DNA substrate. Collectively, the data support the conclusion that a functional intermediate in the reaction sequence is being detected and that the avian topoisomerase I preferentially cleaves supercoiled DNA.
 ...
PMID:Quantitation of eukaryotic topoisomerase I reactivity with DNA. Preferential cleavage of supercoiled DNA. 298 6


1 2 3 Next >>