EC:5.99.1.3 - FACTA Search

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Query: EC:5.99.1.3 (topoisomerase)
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A cloned plasmid, pmyc(H-K), containing sequences derived from human c-myc gene replicated in vitro in Raji nuclear extract in a semiconservative manner. Using this system, it was found that phosphatidylinositol and cardiolipin strongly inhibited the replication of pmyc(H-K) in vitro, whereas other phospholipids, i.e., phosphatidylserine, phosphatidylcholine, phosphatidylethanolamine, phosphatidic acid, and sphingomyelin, had no appreciable effect. The concentrations of phosphatidylinositol and cardiolipin producing 50% inhibition of the replication were 4.6 and 5.4 microM, respectively. Phosphatidylinositol and cardiolipin inhibited the relaxation of pmyc(H-K) supercoiled DNA, but showed little or weaker effects on DNA polymerase alpha and topoisomerase II in Raji nuclear extract. These results suggest that phosphatidylinositol and cardiolipin antagonize the replication of pmyc(H-K) in vitro, through, at least in part, the interaction with topoisomerase I.
J Biochem 1988 Sep
PMID:Phospholipid modulates in vitro replication of autonomous replicating sequence from human cells. 285 2

Novobiocin inhibits DNA topoisomerases. It also inhibits excision repair of DNA photodamage, blocking both repair synthesis and the earlier step of incision at u.v. damage sites (as measured by the accumulation of DNA strand breaks in u.v.-irradiated interphase cells treated with DNA synthesis inhibitors such as hydroxyurea or cytosine arabinoside). It has been supposed, therefore, that novobiocin affects repair by blocking a putative topoisomerase step prior to incision. But we find that novobiocin also has a marked dose- and time-dependent effect on mitochondria: in cells exposed to novobiocin, mitochondria swell and their cristae become disrupted, and the intracellular ATP:ADP ratio is lowered, though the membrane potential is maintained as judged by rhodamine 123 fluorescence. Mitotic cells are more resistant to mitochondrial disruption by novobiocin than are interphase cells. This correlates with a relative resistance of u.v.-irradiated mitotic cells to the inhibition of incision by novobiocin. The chromosomal decondensation that results from the accumulation of DNA breaks due to incision when u.v.-irradiated mitotic cells are treated with hydroxyurea and cytosine arabinoside is largely suppressed by novobiocin. Furthermore, the suppression of induced strand break accumulation is partly due to a suppression by novobiocin of the uptake and phosphorylation of cytosine arabinoside; breaks accumulated in u.v.-irradiated cells in the presence of aphidicolin, an inhibitor of DNA polymerase alpha that does not require phosphorylation, are less novobiocin-sensitive. We conclude that the effects of novobiocin on excision repair are more likely to be due to a non-specific effect on ATP metabolism than to a specific effect on a repair-related topoisomerase.
Carcinogenesis 1985 Sep
PMID:Novobiocin inhibition of DNA excision repair may occur through effects on mitochondrial structure and ATP metabolism, not on repair topoisomerases. 299 34

Plasmid pBR322 DNA isolated from Salmonella typhimurium supX (topoisomerase I) mutants exhibits a novel supercoiling distribution characterized by extreme heterogeneity in linking number and the presence of highly negatively supercoiled topoisomers. The most negatively supercoiled topoisomers isolated from one supX mutant have more than twice the wild-type level of supercoiling; the distribution as a whole has a median superhelix density about 1.3 times that of wild type. Surprisingly, the supercoiling distribution of plasmid pUC9 DNA isolated from supX mutants differs from that of pBR322. Escherichia coli topoisomerase I mutants have been shown to acquire compensatory mutations that reduce bacterial chromosome supercoiling to below the wild-type level even in the absence of topoisomerase I. We find that such a compensatory mutation in an E. coli topoisomerase I deletion mutant does not reduce pBR322 DNA supercoiling to a level below that of wild type. Thus, the effects of topoisomerase mutations on supercoiling depend on the replicon.
J Mol Biol 1985 Sep 05
PMID:DNA topoisomerase I mutants. Increased heterogeneity in linking number and other replicon-dependent changes in DNA supercoiling. 299 87

The nucleotide sequence of the gene TOP2 encoding DNA topoisomerase II of the yeast Saccharomyces cerevisiae has been determined. The entire coding sequence of the gene lies within an open reading frame, and there are 1429 amino acids in the single polypeptide protein if translation is assumed to start at the first ATG in this frame. The calculated subunit and molecular mass of the enzyme is 164,000 and 328,000 daltons, respectively. The transcriptional starts of the gene and a polyadenylation site of the message have also been mapped.
J Biol Chem 1986 Sep 25
PMID:The complete nucleotide sequence of the structural gene TOP2 of yeast DNA topoisomerase II. 301 75

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.
Proc Natl Acad Sci U S A 1986 Sep
PMID:Anaerobic regulation of nitrogen-fixation genes in Rhodopseudomonas capsulata. 301 47

T4 gene 52 encodes one of the three subunits of T4 DNA topoisomerase. The T4 enzyme is required for normal phage DNA replication. I have cloned the entire gene, and it is expressed in uninfected E. coli cells. The sequence of 1966 nucleotides of T4 deletion delta sa9 surrounding gene 52 has been determined. The reading frame of the gene was established by identifying the first ten amino acids in the large open reading frame derived from the DNA sequence as those at the amino-terminus of the purified 52-protein. Based on the DNA sequence, 52-protein has 441 amino acids and a calculated peptide molecular weight of 50,583 daltons. This T4 topoisomerase subunit shares significant amino acid sequence homology with the gyrA subunit of bacterial gyrases and the carboxyl-half of yeast topoisomerase II in spite of the large differences in their sizes, confirming their functional equivalence in type II enzyme directed DNA topoisomerization. Amino acid sequence homology is highest in the amino-terminal portions of the equivalent peptides. The homology alignment suggests a consensus sequence organization surrounding the reactive tyrosine which is used to form the transient protein-DNA intermediate in the double-stranded DNA passing reaction. The delta sa9 deletion in T4 brings gene 52 to a location 30 nucleotides 3' from the rIIB gene whose C-terminal 167 codons are also reported here.
Nucleic Acids Res 1986 Sep 25
PMID:The 52-protein subunit of T4 DNA topoisomerase is homologous to the gyrA-protein of gyrase. 302 May 13

We have analyzed 1 kb of cloned human c-fos sequence (-711 to +287) for calf thymus DNA topoisomerase II cleavage sites in vitro. Using the anti-tumor drug VP16 (demethylepipodophyllotoxin-beta-D-glucoside) with purified topoisomerase II, we identify twelve sites. Five sites are clustered around position -306 in a region that possesses enhancer-like properties. A second cluster of three sites is positioned 15 bp upstream of the TATA promoter element. With a HeLa nuclear extract as a source of topoisomerase II, a subset of cleavage sites is conserved within the two clusters. The cleavage sites in the enhancer-like element are conserved in the homologous region of the murine c-fos. These findings raise the possibility that topoisomerase II is involved in mediation of mitogen-induced c-fos expression.
EMBO J 1986 Sep
PMID:DNA topoisomerase II cleaves at specific sites in the 5' flanking region of c-fos proto-oncogenes in vitro. 302 64

We have determined the complete nucleotide sequence of a 5.3-kb long genomic DNA fragment of the fission yeast Schizosaccharomyces pombe that encodes DNA topoisomerase II. It contains a 4293 bp long single open reading frame. The predicted polypeptide has 1431 residues (mol. wt 162,000) and shows three characteristic domains; the large C-terminal region, which consists of alternating acidic-basic stretches and might be a chromatin-binding domain, the NH2 half domain homologous to the ATP-binding gyrB subunit of bacterial gyrase and the central-to-latter part which is homologous to the NH2 domain of the catalytic gyrA subunit, suggesting a possible evolutionary consequence of the gene fusion of the bacterial gyrase subunits into the eucaryotic DNA topoisomerase II gene. We have found that the cloned fission yeast TOP2 gene can complement the budding yeast top2 mutation, although the fission yeast TOP2 protein sequence is only 50% homologous to the recently determined sequence of budding yeast (J.C. Wang, personal communication). Conversely, the budding yeast TOP2 gene can complement the fission yeast top2 mutations, indicating that their DNA topoisomerase II genes are functionally exchangeable.
EMBO J 1986 Sep
PMID:The nucleotide sequence of the fission yeast DNA topoisomerase II gene: structural and functional relationships to other DNA topoisomerases. 302 70

We have examined the effect of the anti-tumor drug VM-26 on purified Drosophila topoisomerase II, and used this drug to map (putative) topoisomerase II cleavage sites in chromatin. These studies indicate that VM-26 interferes with the strand breakage-rejoining catalytic cycle. VM-26 appears to stabilize the topoisomerase-II-cleavable complex and markedly enhances the formation of double-strand breaks in naked DNA. VM-26 also stimulates the formation of double-strand breaks in isolated Drosophila nuclei. Analysis of the parameters of the VM-26-stimulated cleavage reaction in nuclei strongly suggests that the double-strand scissions are generated by endogenous topoisomerase II. Finally, we have examined the distribution of (putative) cleavage sites for endogenous topoisomerase II in the chromatin of the 87A7 heat shock locus and the histone repeat unit. We have found that there are prominent VM-26-induced cleavage products from the 5' ends of the 87A7, the two heat shock protein 70 genes, and in the intergenic spacer separating these genes. Moreover, the pattern of VM-26-induced cleavage products is altered in nuclei prepared from heat-shocked cells. In the case of the histone repeat unit, only minor VM-26-induced cleavage products are observed in nuclei (in spite of the fact that experiments on naked DNA indicate that the histone repeat contains many major cleavage sites for purified topoisomerase II). These findings suggest that the nucleoprotein organization of different DNA segments may be important in determining whether specific sites are accessible to endogenous topoisomerase II in nuclei.
J Mol Biol 1986 Sep 20
PMID:Topoisomerase II cleavage in chromatin. 302 49

We show that DNA topoisomerase II (topo II) is continuously required for mitotic chromosome changes in Schizosaccharomyces pombe. We constructed cold-sensitive (cs) or temperature-sensitive (ts) strains mutated in the genes coding for topo II (top2) and beta-tubulin (nda3). The ATP-dependent activity of the top2cs gene product is cs in vitro. The cloned top2cs gene sequence predicts an amino acid substitution. A cs top2-cs nda3 double mutant at 20 degrees C shows long, entangled chromosomes, which condense and separate upon the shift to permissive temperatures. If spindle formation is prevented at permissive temperatures, the chromosomes condense but do not separate. Thus topo II is required for final chromosome condensation; moreover, pulse-shift experiments show that topo II is required for chromatid disjuction. Experiments with ts top2-cs nda3 cells show that topo II is also required for chromosome separation in anaphase: inactivation of topo II and activation of beta-tubulin allow normal spindle formation but result in "streaked" chromosomes.
Cell 1987 Sep 11
PMID:DNA topoisomerase II is required for condensation and separation of mitotic chromosomes in S. pombe. 304 Feb 64

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