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Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the studies reported here we have used
topoisomerase
II as a model system for analyzing the factors that determine the sites of action for DNA-binding proteins in vivo. To localize
topoisomerase
II sites in vivo we used an inhibitor of the purified enzyme, the antitumor drug VM-26. This drug stabilizes an intermediate in the catalytic cycle, the cleavable complex, and substantially stimulates DNA cleavage by
topoisomerase
II. We show that lysis of VM-26 treated tissue culture cells with sodium dodecyl sulfate induces highly specific double-strand breaks in genomic DNA, and we present evidence indicating that these double-strand breaks are generated by
topoisomerase
II. Using indirect end labeling to map the cleavage products, we have examined the in vivo sites of action of
topoisomerase
II in the 87A7 heat shock locus, the histone repeat, and a tRNA gene cluster at 90BC. Our analysis reveals that chromatin structure, not sequence specificity, is the primary determinant in
topoisomerase
II site selection in vivo. We suggest that chromatin organization may provide a general mechanism for generating specificity in a wide range of DNA-protein interactions in vivo.
Mol
Cell Biol 1991 Oct
PMID:Chromatin structure, not DNA sequence specificity, is the primary determinant of topoisomerase II sites of action in vivo. 165 19
We report here the isolation, sequence analysis, structure, and expression of the gene encoding the largest subunit of RNA polymerase III (RPIII) from Plasmodium falciparum. The P. falciparum RPIII gene consists of 5 exons and 4 introns, is expressed in all of the asexual erythrocytic stages of the parasite as a 8.5-kb mRNA, and is present in a single copy on chromosome 13. The predicted 2339 amino acid residue RPIII subunit contained 5 regions that were conserved between different eukaryotic RPIII subunits, and 4 variable regions that separated the conserved regions. Three of the variable regions were greatly enlarged in comparison to the corresponding variable regions in other RPIII subunits. Variable region C' represented nearly one-third of the P. falciparum RPIII subunit (750 amino acid residues), included a unique repeated decapeptide sequence, and had some homology with yeast
DNA topoisomerase II
. Noteworthy amino acid sequences and structures were identified in both the conserved regions and in the enlarged variable regions, and their possible role(s) as domains that regulate RPIII enzyme activity is discussed.
Mol
Biochem Parasitol 1991 Jun
PMID:Characterization of the gene encoding the largest subunit of Plasmodium falciparum RNA polymerase III. 165 54
During the double-stranded passage that takes place because of the
topoisomerase
action, a plectonemically interwound DNA often becomes knotted. In this process, a portion of the substrate supercoils are converted into interlinks that contribute to the topology of the knot formed. In this appendix, an approximate formula is derived for the average number of these interlinks in terms of the number of supercoils and branches in the substrate. This will give an indication of the complexity of the average knot obtained. When two regions of DNA come together before passage, the substrate is divided into two domains in essentially the same way as intramolecular recombination divides the substrate into two domains (Boles, T. C., White, J. H., and Cozzarelli, N. R. (1990) J.
Mol
. Biol. 213, 931-951). Nodes formed between DNA segments from different domains are called interdomainal.
...
PMID:A formula for the average number of knot interlinks caused by type 2 topoisomerase action. 165 30
The principal existence of natural catalytic antibodies in the autoimmune sera is discussed. In the course of the autoimmune process, the induction of antiidiotypic antibodies against topoisomerase I has been shown in the sera of patients with scleroderma, systemic lupus erythematosus, and rheumatoid arthritis. The above antibodies were obtained in preparative amounts. Proceeding from the concept of the idiotypic network, the antibodies were suggested to be natural enzymes and their properties were studied. They appeared to be anti-DNA antibodies, competing with the native topoisomerase I for binding to anti-
topoisomerase
monoclonal antibodies and possessing highly specific DNA-binding activity (Kd is about 0.1 nM). The antiidiotypic antibodies specifically inhibit the
topoisomerase
-catalysed relaxation reaction and affect the formation of covalent DNA-protein complex. Possible involvement of antiidiotypic antibodies against
topoisomerase
in the catalysis of reactions of DNA transformation is analysed. Catalytic antibodies that are natural enzymes possessing DNA-nicking activity have been isolated from the blood sera of patients with different autoimmune pathologies.
Mol
Biol (Mosk)
PMID:[Anti-idiotypic and natural catalytically active antibodies]. 165 16
We purified fission yeast
DNA topoisomerase II
(topo II) to apparent homogeneity. It consists of a single 165-kDa polypeptide in sodium dodecyl sulfate-polyacrylamide gel electrophoresis and, upon treatment with a bifunctional reagent, doubles its molecular weight. Limited proteolysis of intact topo II by papain produces a 125-kDa core, which lacks the N-terminal 75 and the C-terminal approximately 260 amino acids but still contains regions similar to those of bacterial or phage T4 topo II subunits. The core retains relaxing and unknotting activities. Further digestion inactivates the core, cleaving it at the middle of the GyrB-like domain and at the beginning of the GyrA-like domain. Therefore, papain appears to cleave spatially distinct subdomains of topo II. We made top2 mutant genes deleted of the C-terminal 286 or N-terminal 74 amino acids, which can substitute for the wild-type top2+ gene in mitosis and meiosis. However, a mutant containing deletions of both termini cannot rescue the top2 null mutant, despite the fact that the product is enzymatically active. Therefore, the top2 product of the doubly truncated gene may not fulfill all of the in vivo requirements for top2+ function.
Mol
Cell Biol 1991 Dec
PMID:A functional 125-kDa core polypeptide of fission yeast DNA topoisomerase II. 165 25
The distributions of DNA cleavage sites induced by
topoisomerase
II in the presence or absence of specific drugs were mapped in the simian virus 40 genome. The drugs studied were 5-iminodaunorubicin, amsacrine (m-AMSA), teniposide (VM-26) and 2-methyl-9-hydroxyellipticinium; each produced a distinctive pattern of enhanced cleavage. Consistently intense cleavage, both in the presence and in the absence of drugs, occurred in the nuclear matrix-associated region. Since
topoisomerase
II is a major constituent of the nuclear matrix, and cleavage complexes include a covalent link between
topoisomerase
II and DNA, the findings suggest that
topoisomerase
II may function to attach DNA to the nuclear matrix. Cleavage usually occurred on both DNA strands with the expected four base-pair 5' stagger, and strong sites tended to occur within A/T runs such as have been associated with binding to the nuclear scaffold. Intense cleavage was present also in the replication termination region, but was absent from the vicinity of the replication origin. Cleavage intensities were found to change with time in a manner that depended both on the site and on the drug, suggesting that
topoisomerase
II can move along the DNA from a kinetically preferred site to a thermodynamically preferred site.
J
Mol
Biol 1991 Dec 20
PMID:Distribution of topoisomerase II cleavage sites in simian virus 40 DNA and the effects of drugs. 166 89
The activity of DNA topoisomerase I present in the nuclear extract of yeast, Saccharomyces cerevisiae, was inhibited by additions of NAD, the substrate of poly (ADP-ribose) polymerase. This NAD-inhibited
topoisomerase
activity was restored to the normal level in a dose-dependent manner by adding 3-aminobenzamide (3-AB), an inhibitor of the polymerase. The 3-AB sensitive polymerase enzyme activity, as determined by the rate of incorporation of the radiolabelled NAD in permeabilized cells, increased by treatment of cells with methyl methanesulfonate (MMS) in a dose-dependent manner. While the additions of MMS increased the polymerase activity, it has caused a decrease in cell survival. However, this cell killing activity of MMS was markedly potentiated by adding benzamide, another inhibitor of polymerase. Thus, these results suggest that the mode of modification of nuclear proteins by altering the poly(ADP-ribosylation) in S. cerevisiae resembles with those observed in mammalian cells.
Cell
Mol
Biol 1991
PMID:Inhibition of topoisomerase I by NAD and enhancement of cytotoxicity of MMS by inhibitors of poly(ADP-ribose) polymerase in Saccharomyces cerevisiae. 166 35
Accumulation of gadd153 mRNA is strongly stimulated in mammalian cells by treatments which arrest growth or damage DNA (A. J. Fornace, Jr. et al.,
Mol
. Cell. Biol., 9: 4196-4203, 1989). In previous studies, we demonstrated that the increased expression of gadd153 following treatment with several DNA-damaging agents was mediated transcriptionally (J. D. Luethy et al., J. Biol. Chem., 265: 16521-16526, 1990). To better define the specificity of this response, we have established a sensitive reporter system in which we have stably integrated a chimeric gene containing the gadd153 promoter linked to the coding region of the chloramphenicol acetyltransferase (CAT) gene into the genome of HeLa cells. Transcriptional activation from the gadd153 promoter was monitored by determining levels of CAT activity in cellular lysates prepared from gadd153CAT/HeLa cells treated with a variety of agents. The gadd153 promoter was strongly activated by a broad spectrum of genotoxic agents including UV-mimetic agents, DNA-cross-linking and alkylating agents, DNA intercalators, and
topoisomerase
inhibitors. Of the DNA-damaging agents tested, only X-irradiation and bleomycin treatments failed to induce gadd153 promoter activity. Agents which inhibit replication and cell division and agents which otherwise result in cytotoxicity or growth arrest also had little influence on gadd153 promoter activity. Expression of the gadd153CAT chimeric gene in xeroderma pigmentosum Group A cells, which are deficient in nucleotide excision DNA repair of pyrimidine dimers, was maximally induced at UV doses at least 6-fold lower than those required for similar induction in repair-proficient HeLa cells. However, the methyl methanesulfonate-induced gadd153 promoter activities were similar in both cell lines. Novobiocin pretreatment inhibited both UV- and methyl methanesulfonate-induced gadd153CAT expression. Collectively, these data indicate that: (a) the gadd153 promoter is activated rapidly and specifically by DNA damage; (b) the altered DNA structure is the inducing signal for the activation of the signal transduction pathway responsible for enhanced gadd153 expression; and (c) regulation of gadd153 by growth arrest is distinct from that of DNA damage. Thus, the gadd153CAT/HeLa cells are a useful model for examining the molecular mechanisms associated with the response to DNA damage and provide a reporter system for the screening of potential genotoxic agents.
...
PMID:Activation of the gadd153 promoter by genotoxic agents: a rapid and specific response to DNA damage. 172 86
Podophyllotoxin (PD) and its derivative etoposide (VP-16), a clinically useful anticancer drug, exhibit different mechanisms of action. PD binds specifically to tubulin to prevent its polymerization, whereas VP-16 lacks this action. The DNA strand breakage caused by VP-16 is thought to be due to its interaction with
topoisomerase
II or to free radical formation by oxidation of its 4'-phenolic hydroxyl group to a semiquinone free radical. We have demonstrated that PD, VP-16, 4'-demethylepipodophyllotoxin (DEPD), and syringic acid (SA) exhibit no DNA-cleaving activity but, in the presence of metal ions such as Cu2+ and Fe3+, DEPD and SA form metal complexes, which in turn show high activity for DNA strand scission at pH 7.8 under air. Furthermore, it was found that DNA cleavage was greatly promoted by irradiation with UV light. The PD-Fe3+ system at pH 7.8 showed very low DNA-cleaving activity, but irradiation with UV light in the system induced almost complete DNA breakage. DNA cleavages were significantly inhibited in the presence of hydroxyl radical scavengers, such as sodium benzoate and dimethylurea, in the Cu(2+)-SA and Fe(3+)-PD systems, with or without UV irradiation. These reactions were investigated by optical and ESR spectra, coupled with ESR spin-trapping techniques, by which the formation of hydroxy radicals was clearly detected in all systems. These findings have led us to a new proposal of the metal- and photo-induced mechanism for understanding the antitumor action of PD, VP-16, and their related compounds.
Mol
Pharmacol 1991 Dec
PMID:Metal- and photo-induced cleavage of DNA by podophyllotoxin, etoposide, and their related compounds. 175 45
The data presented confirm the possibility of enzymatic formation of discrete DNA-fragments appearing during fractionation of nuclear DNA by FIGE. Teniposide-dependent pattern of DNA-fragments as well as occurrence of protein-linked DNA breaks suggest that discrete cleavage of intact nuclear DNA is modulated by
DNA topoisomerase II
. The possible relationship between discrete DNA-fragments and the higher order chromatin folding are discussed.
Mol
Biol (Mosk)
PMID:[Fractionation of eukaryotic DNA in a pulsed electrical field. II. Discrete DNA fragments and level of structural organization of chromatin]. 181 95
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