EC:5.99.1.3 - FACTA Search

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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)

Besides the nicking-closing (topoisomerase I) activity, an ATP-dependent DNA topoisomerase is present in rat liver nuclei. The enzyme, partially purified, is able to catenate in vitro closed DNA circles in a magnesium-dependent, ATP-dependent, histone H1-dependent reaction, and to decatenate in vitro kinetoplast DNA networks to yield free minicircles in a magnesium-dependent and ATP-dependent reaction. It is largely similar to other eukaryotic type II topoisomerases in its requirements, and presumably belongs to this class of enzymes. Type I and type II activities were measured in rat liver nuclei as a function of regenerating time after partial hepatectomy: type I activity was not significantly changed during this process. In contrast, type II activity was considerably increased, suggesting a possible involvement of the enzyme in DNA replication.
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PMID:DNA topoisomerases from rat liver: physiological variations. 629 30

A nuclear type I topoisomerase from mouse leukemia L1210 cells has been partially purified and characterized. The sedimentation coefficient of the enzyme by velocity sedimentation is 4.3 S, consistent with a globular protein of 68 kDa. Enzyme activity is stimulated 20-fold in the presence of magnesium over that achieved in KCl alone. The enzyme is completely inhibited in the presence of the berenil congeners HOE 13548 and 15030 while berenil itself caused only partial inhibition at concentrations below 200 micrograms/ml. An acid soluble protein of 30 kDa (by SDS-polyacrylamide gel electrophoresis) co-purified with the topoisomerase but could be separated by precipitation in a low salt buffer. This protein, as well as a protein of similar characteristics, histone H1, stimulated topoisomerase activity over a narrow concentration range. The role of topoisomerase in the DNA strand scission observed in L1210 cells following exposure to intercalating agents remains conjectural as the purified enzyme did not produce nicks in plasmid DNA in the presence of adriamycin.
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PMID:Properties of a purified nuclear topoisomerase from L1210 cells. 631 36

The activities of DNA topoisomerase I and II and the relative proportions of the histone H1 subtypes were investigated in rat liver which was undergoing hypertrophy and exhibiting increased transcriptional activity following the administration of dexamethasone. There was a rise in the level of activity of DNA topoisomerase I and a slight fall in that of DNA topoisomerase II. The relative proportions of the H1 subtypes were altered due to a preferential increase in H1.1. The results are discussed in relation to the effect of glucocorticoids on the transcription and replication of hepatic DNA.
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PMID:Glucocorticoid-induced changes in liver: effect of dexamethasone administration on DNA topoisomerase I and II activities and distribution of histone H1 subtypes. 783 13

DNA topoisomerase I isolated from the lower eukaryote Neurospora crassa mitochondria was characterized. Molar mass of the enzyme in the native state is 120 kDa and 60-65 kDa when denatured. The pH optimum of the enzyme is 7.8 and the KCl optimum concentration is 40 mmol/L. This topoisomerase is independent of ATP and Mg2+. N-Ethylmaleimide, 4-chloromercuribenzoate, SDS, guanidinium chloride, polyethylene glycol, heparin and ethidium bromide inhibit its activity, while novobiocin, nalidixic acid, Triton X-100 and chloroquine do not. Polyamines and histone H1 stimulate the topoisomerase activity. We classify this DNA topoisomerase as type I and eukaryotic. Conversion of the topoisomerase to a nonspecific endonuclease at increased temperature is proposed.
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PMID:Characterization of mitochondrial DNA topoisomerase I from Neurospora crassa. 795 26

Histone H1 preferentially and cooperatively binds scaffold-associated regions (SARs) in vitro via specific interactions with the numerous short A + T-rich tracts (A-tracts) contained in these sequences. Selective titration of A-tracts by the oligopeptide distamycin abolishes this interaction and results in a redistribution of H1. Similarly, treatment of intact cells and isolated nuclei with distamycin specifically enhances cleavage of internucleosomal linkers of SARs by topoisomerase II and restriction enzymes. The increased accessibility of these linkers is thought to result from the unfolding (or opening) of the chromatin fiber and to be due to a reduced occupancy by histone H1. Chromatin extraction and H1 assembly experiments support this view. We discuss a model whereby open, H1-depleted chromatin regions may be generated by titration of A-tracts by putative distamycin analogues; this local opening may spread to adjacent regions assuming highly cooperative H1-H1 interactions in chromatin.
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PMID:A model for chromatin opening: stimulation of topoisomerase II and restriction enzyme cleavage of chromatin by distamycin. 838 47

Ustilago maydis topoisomerase I relaxes superhelical DNA in the absence of any co-factors. The reaction reaches a defined end-point proportional to the amount of enzyme added and an analysis of the reaction by Hill plot transformation indicates that at least two molecules of topoisomerase must interact with the DNA to catalyze relaxation. The addition of purified Ustilago histone H1 reduces the stoichiometric amount of topoisomerase I required by 50%. H1 histone may function to enhance DNA relaxation through a cooperative mechanism. The purified HMG-like protein from Ustilago also enhances DNA relaxation mediated by the topoisomerase. Whereas H1 stimulates topo I-mediated DNA relaxation through a processive mode, the HMG-like protein enhances through a distributive mechanism. Taken together, these results demonstrate that the interaction of chromosomal proteins with topoisomerase can influence DNA topology, and mechanisms are proposed to explain this enhancement.
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PMID:DNA relaxation mediated by Ustilago maydis type I topoisomerase; modulation by chromatin associated proteins. 838 6

Polynuceosomes are constrained into loops or domains and are insulated from the effects of chromatin structure and torsional strain from flanking domains by the cross-complexation of matrix-attached regions (MARs) and matrix proteins. MARs or SARs have an average size of 500 bp, are spaced about every 30 kb, and are control elements maintaining independent realms of gene activity. A fraction of MARs may cohabit with core origin replication (ORIs) and another fraction might cohabit with transcriptional enhancers. DNA replication, transcription, repair, splicing, and recombination seem to take place on the nuclear matrix. Classical AT-rich MARs have been proposed to anchor the core enhancers and core origins complexed with low abundancy transcription factors to the nuclear matrix via the cooperative binding to MARs of abundant classical matrix proteins (topoisomerase II, histone H1, lamins, SP120, ARBP, SATB1); this creates a unique nuclear microenvironment rich in regulatory proteins able to sustain transcription, replication, repair, and recombination. Theoretical searches and experimental data strongly support a model of activation of MARs and ORIs by transcription factors. A set of 21 characteristics are deduced or proposed for MAR/ORI sequences including their enrichment in inverted repeats, AT tracts, DNA unwinding elements, replication initiator protein sites, homooligonucleotide repeats (i.e., AAA, TTT, CCC), curved DNA, DNase I-hypersensitive sites, nucleosome-free stretches, polypurine stretches, and motifs with a potential for left-handed and triplex structures. We are establishing Banks of ORI and MAR sequences and have undertaken a large project of sequencing a large number of MARs in an effort to determine classes of DNA sequences in these regulatory elements and to understand their role at the origins of replication and transcriptional enhancers.
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PMID:Chromatin domains and prediction of MAR sequences. 857 83

There is compelling evidence for the central role of oxidative damage in the aging process and for the participation of reactive oxygen species in tumor initiation and promotion. Caloric restriction (CR) or energy restriction retards age-associated increases in mitochondrial free-radical production and reduces the accumulation of oxidatively damaged cell components. CR has also been shown to slow down age-related declines in various repair capabilities, including some types of DNA repair. It is proposed that inhibitors of mitochondrial electron transport and/or uncouplers of oxidative phosphorylation (rotenone, amytal, amiodarone, valinomycin, etc.), when used at extremely low doses, could mimic the effects of CR in model systems. The objective is to lower mitochondrial free-radical production by decreasing the fraction of electron carriers in the reduced state. In addition to a variety of other effects, CR has been shown to increase the rate of apoptosis, particularly in preneoplastic cells, and in general, to promote elevated levels of free glucocorticoids (GCs). GCs are known to induce tissue-specific apoptosis and to upregulate gap-junction-mediated intercellular communication (GJIC). Tumor promoters like phorbol esters have the opposite effect, in that they inhibit both the process of apoptosis and GJIC. The enzyme poly (ADP-ribose) polymerase (PARP) is thought to play a central role in apoptosis, in a manner that has been highly conserved in evolution. There is good evidence that the apoptosis-associated Ca/Mg-dependent DNA endonuclease is maintained in a latent form by being poly (ADP-ribosylated). Apoptosis would require the removal of this polymer from the endonuclease, and, most likely, its removal from topoisomerase II and histone H1 as well. The role of poly (ADP-ribose) in apoptosis, carcinogenesis, and aging could be studied by the use of modulators of PARP activity (3-aminobenzamide, 3-nitrosobenzamide, 1% ethanol, etc.), inhibitors of poly ADP-ribose) glycohydrolase activity (ethacridine, 43 degrees C, etc.), and inhibitors of the PARP-specific protease (interleukin-1 beta converting enzyme (ICE)-like protease). Also, it would be of interest to determine if CR can decrease the half-life of poly (ADP-ribose), upregulate GJIC, and modulate the activities of PARP, the glycohydrolase, and the PARP-specific protease, factors potentially important in these processes.
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PMID:The beneficial effects of dietary restriction: reduced oxidative damage and enhanced apoptosis. 865 88

Histone octamers (hos) and DNA topoisomerase I contribute, along with other proteins, to the higher order structure of chromatin. Here we report on the similar topological requirements of these two protein model systems for their interaction with DNA. Both histone octamers and topoisomerase I positively and consistently respond to DNA supercoiling and curvature, and to the spatial accessibility of the preferential interaction sites. These findings (1) point to the relevance of the topology-related DNA conformation in protein interactions and define the particular role of the helically phased rotational information; and (2) help to solve the apparent paradoxical behaviour of ubiquitous and abundant proteins that interact with defined DNA sites in spite of the lack of clear sequence consensuses. Considering firstly, that the interactions with DNA of both DNA topoisomerase I and histone octamers are topology-sensitive and that upon their interaction the DNA conformation is modified; and secondly, that similar behaviours have also been reported for DNA topoisomerase II and histone H1, a topology-based functional correlation among all these determinants of the higher order structure of chromatin is here suggested.
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PMID:The active role of DNA as a chromatin organizer. 876 Mar 42

To gain insight into the relative catalytic efficiencies of mammalian type I and type II DNA topoisomerases, in the cellular context, we have used naked DNA and DNA incorporated into nucleosomes as substrates. We observed that the relaxation activity of both the enzymes declined with DNA containing increasing densities of nucleosomes; however, kinetic analysis revealed that topoisomerase I seemed less affected than topoisomerase II. The addition of histone H1, in stoichiometric amounts, to naked DNA or minichromosomes lessened the activity of topoisomerase II, and required 7-fold less for complete inhibition when the latter was used as the substrate. To ascertain if the observed differences are specific to topoisomerase II from testis, we examined the effect of nucleosomes on the catalytic efficiency of its isoform from liver. Interestingly, the suppression of relaxation activity of liver topoisomerase II required substrates containing higher mass ratios of histone octamer/DNA. Studies on the effect of nucleosomes on the action of teniposide displayed significant differences in the kinetics of the reaction, in its IC50 values, and have provided biochemical evidence for the first time that nucleosomes increased inhibition caused by teniposide. Further, this feature appears to be specific for topoisomerase II-directed drugs and is not shared by the generic class of either DNA-intercalating or non-DNA-intercalating ligands.
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PMID:Effects of nucleosomes and anti-tumor drugs on the catalytic activity of type II DNA topoisomerase from rat testis. 921 83

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