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1.
We have characterized the topoisomerase I and II activities in nuclear extracts from immature embryos of Zea mays and the effect of the treatment with 2,4-dichlorophenoxyacetic acid (2,4-D) and abscisic acid (ABA). These extracts were shown to be essentially devoid of protease and nuclease activities and they were tested for their ability to relax supercoiled DNA, unknotting P4 DNA and catenate circular duplex DNA under catalytic conditions. Unknotting and catenation reactions are strictly magnesium- and ATP-dependent, but not the relaxation of circular supercoiled DNA allowing the detection of both topoisomerase I and II activities. Two cytotoxic drugs, camptothecin, a plant alkaloid that inhibits cukaryotic topoisomerase I, and epipodophyllotoxin VM-26 (teniposide) that inhibits topoisomerase II, have been assayed in our extracts showing similar inhibitory effects on topoisomerase enzymes. Alkaline phosphatase treatment of nuclear extracts abolishes both topoisomerase activities. Nuclear extracts from embryos treated with 2,4-D showed 200% increase on topoisomerase II activity as compared with untreated ones, but only residual activity was detected in ABA-treated embryos. Nuclear extracts from hormone-treated and untreated embryos showed similar topoisomerase I activity with deviations of less than 25%. These differences are discussed in terms of possible post-translational modifications of the enzymes associated with the increase in proliferation activity of calli.  相似文献   

2.
Characterization of a potent catenation activity of HeLa cell nuclei   总被引:1,自引:0,他引:1  
Using an assay which measures catenation of a supercoiled DNA template, we have characterized and quantitated a potent activity identified in crude fractions of HeLa cell nuclei. Catenation requires Mg-ATP and a DNA-condensing agent, polyvinyl alcohol. A filter-binding or agarose gel assay can be used to quantitate activity. In this reaction, DNA topoisomerase I relaxes the input supercoiled DNA to provide DNA topoisomerase II, a strongly favored template for catenation. DNA topoisomerase II preferentially catenates relaxed DNA over supercoiled DNA by a factor of 100. One molecule of DNA topoisomerase II is able to catenate about 20 circles of relaxed DNA/min at 30 degrees C but only 0.16 circle of supercoiled DNA/min at 30 degrees C. The purified HeLa topoisomerase I can also catenate DNA under these assay conditions, yet in an ATP-independent fashion. It is much less efficient than topoisomerase II; one molecule of topoisomerase I catenates only about 3.8 X 10(-3) molecules of supercoiled DNA/min at 30 degrees C with a DNA template containing 5% nicked circles. This remarkable difference between the two enzymes allows quantitation of DNA topoisomerase II activity seen in the presence of excess topoisomerase I. Unlike Escherichia coli topoisomerase I (omega), catenation by the HeLa topoisomerase I is not stimulated by gapped circles.  相似文献   

3.
Identification of a potent decatenating enzyme from Escherichia coli   总被引:20,自引:0,他引:20  
A topoisomerase has been purified from extracts of a topoisomerase I-deficient strain of Escherichia coli based solely on its ability to segregate pBR322 DNA replication intermediates in vitro. This enzyme rapidly decatenated multiply linked form II:form II DNA dimers to form II DNA, provided that the DNA substrate contained single-stranded regions. Efficient relaxation of negatively supercoiled DNA was observed when reaction mixtures were incubated at 52 degrees C, but not at 30 degrees C (the temperature at which decatenation was readily observed). This topoisomerase was insensitive to the DNA gyrase inhibitor norfloxacin and unaffected by antibody directed against topoisomerase I. Relaxation of a unique plasmid topoisomer revealed that this decatenase changed the linking number of the DNA in steps of one and was therefore a type 1 topoisomerase. The cleavage pattern of a fragment of single-stranded phi X174 DNA generated by this decatenase was virtually identical to that reported for topoisomerase III, the least characterized topoisomerase present in E. coli.  相似文献   

4.
A defect in DNA topoisomerase II activity in ataxia-telangiectasia cells   总被引:2,自引:0,他引:2  
DNA topoisomerase type I and II activities were determined by serial dilution in nuclear extracts from control and ataxia-telangiectasia lymphoblastoid cells. Topoisomerase I activity, assayed by relaxation of supercoiled plasmid DNA, was found to be approximately the same in both cell types. In order to remove interference from topoisomerase I, the activity of topoisomerase II was measured by the unknotting of knotted P4 phage DNA in the presence of ATP. The activity of topoisomerase II was markedly reduced in two ataxia-telangiectasia cell lines, AT2ABR and AT8ABR, compared to controls. This reduction in activity was detected with increasing concentration of protein and in time course experiments at a single protein concentration. A third cell line, AT3ABR, did not have a detectably lower activity of topoisomerase II when assayed under these conditions. The difference in topoisomerase II activity in the ataxia-telangiectasia cell lines examined may reflect to some extent the heterogeneity observed in this syndrome.  相似文献   

5.
6.
Increment of DNA topoisomerases in chemically and virally transformed cells   总被引:1,自引:0,他引:1  
The activities of topoisomerases I and II were assayed in subcellular extracts obtained from nontumorigenic BALB/c 3T3 A31 and normal rat kidney (NRK) cell lines and from the same cells transformed by benzo[a]pyrene (BP-A31), Moloney (M-MSV-A31) and Kirsten (K-A31) sarcoma viruses, and simian virus 40 (SV-NRK). The enzymatic activity of topoisomerase I was monitored by the relaxation of negatively supercoiled pBR322 DNA and by the formation of covalent complexes between 32P-labeled DNA and topoisomerase I. Topoisomerase II activity was determined by decatenation of kinetoplast DNA (k-DNA). It was found that nuclear and cytoplasmic type I topoisomerase specific activities were higher in every transformed cell line than in the normal counterparts. These differences cannot be attributed to an inhibitory factor present in A31 cells. When chromatin was treated at increasing ionic strengths, the 0.4 M NaCl extract showed the highest topoisomerase I specific activity. Moreover, in this fraction the transformed cells exhibited the most significant increment in the enzymatic activity as compared with nontransformed cultures. Spontaneously transformed A31 cells showed topoisomerase I activity similar to that of extracts of cells transformed by benzo[a]pyrene. Topoisomerase II specific activity was also increased in SV-NRK cells, as judged by the assay for decatenation of k-DNA to yield minicircle DNA.  相似文献   

7.
8.
Camptothecin, a cytotoxic antitumor compound, has been shown to produce protein-linked DNA breaks mediated by mammalian topoisomerase I. We have investigated the mechanism by which camptothecin disrupts DNA processing by topoisomerase I and have examined the effect of certain structurally related compounds on the formation of a DNA-topoisomerase I covalent complex. Enzyme-mediated cleavage of supercoiled plasmid DNA in the presence of camptothecin was completely reversed upon the addition of exogenous linear DNA or upon dilution of the reaction mixture. Camptothecin and topoisomerase I produced the same amount of cleavage from supercoiled DNA or relaxed DNA. In addition, the alkaloid decreased the initial velocity of supercoiled DNA relaxation mediated by catalytic quantities of topoisomerase I. Inhibition occurred under conditions favoring processive catalysis as well as under conditions favoring distributive catalysis. By use of [3H]camptothecin and an equilibrium dialysis assay, the alkaloid was shown to bind reversibly to a DNA-topoisomerase I complex, but not to isolated enzyme or isolated DNA. These results are consistent with a model in which camptothecin reversibly traps an intermediate involved in DNA unwinding by topoisomerase I and thereby perturbs a set of equilibria, resulting in increased DNA cleavage. By examining certain compounds that are structurally related to camptothecin, it was found that the 20-hydroxy group, which has been shown to be essential for antitumor activity, was also necessary for stabilization of the covalent complex between DNA and topoisomerase I. In contrast, no such correlation existed for UV-light-induced cleavage of DNA by Cu(II)-camptothecin derivatives.  相似文献   

9.
McClendon AK  Dickey JS  Osheroff N 《Biochemistry》2006,45(38):11674-11680
Previous studies with human and bacterial topoisomerases suggest that the type II enzyme utilizes two distinct mechanisms to recognize the handedness of DNA supercoils. It has been proposed that the ability of some type II enzymes, such as human topoisomerase IIalpha and Escherichia coli topoisomerase IV, to distinguish supercoil geometry during DNA relaxation is mediated by elements in the variable C-terminal domain of the protein. In contrast, the ability of human topoisomerase IIalpha and topoisomerase IIbeta to discern the handedness of supercoils during DNA cleavage suggests that residues in the conserved N-terminal or central domain of the protein are involved in this process. To test this hypothesis, the ability of Paramecium bursaria chlorella virus-1 (PBCV-1) and chlorella virus Marburg-1 (CVM-1) topoisomerase II to relax and cleave negatively and positively supercoiled plasmids was assessed. These enzymes display a high degree of sequence identity with the N-terminal and central domains of eukaryotic topoisomerase II but naturally lack the C-terminal domain. While PBCV-1 and CVM-1 topoisomerase II relaxed under- and overwound substrates at similar rates, they were able to discern the handedness of supercoils during the cleavage reaction and preferentially cut negatively supercoiled DNA. Preferential cleavage was not due to a change in site specificity, DNA binding, or religation. These findings are consistent with a bimodal recognition of DNA geometry in which topoisomerase II uses elements in the C-terminal domain to sense the handedness of supercoils during DNA relaxation and elements in the conserved N-terminal or central domain during DNA cleavage.  相似文献   

10.
McClendon AK  Osheroff N 《Biochemistry》2006,45(9):3040-3050
Collisions with DNA tracking systems are critical for the conversion of transient topoisomerase-DNA cleavage complexes to permanent strand breaks. Since DNA is overwound ahead of tracking systems, cleavage complexes most likely to produce permanent strand breaks should be formed between topoisomerases and positively supercoiled molecules. Therefore, the ability of human topoisomerase IIalpha and IIbeta and topoisomerase I to cleave positively supercoiled DNA was assessed in the absence or presence of anticancer drugs. Topoisomerase IIalpha and IIbeta maintained approximately 4-fold lower levels of cleavage complexes with positively rather than negatively supercoiled DNA. Topoisomerase IIalpha also displayed lower levels of cleavage with overwound substrates in the presence of nonintercalative drugs. Decreased drug efficacy was due primarily to a drop in baseline (i.e., nondrug) cleavage, rather than an altered interaction with the enzyme-DNA complex. Similar results were seen for topoisomerase IIbeta, but the effects of DNA geometry on drug-induced scission were somewhat less pronounced. With both topoisomerase IIalpha and IIbeta, intercalative drugs displayed greater relative cleavage enhancement with positively supercoiled DNA. This appeared to result from negative effects of high concentrations of intercalative agents on underwound DNA. In contrast to the type II enzymes, topoisomerase I maintained approximately 3-fold higher levels of cleavage complexes with positively supercoiled substrates and displayed an even more dramatic increase in the presence of camptothecin. These findings suggest that the geometry of DNA supercoils has a profound influence on topoisomerase-mediated DNA scission and that topoisomerase I may be an intrinsically more lethal target for anticancer drugs than either topoisomerase IIalpha or IIbeta.  相似文献   

11.
A topoisomerase able to introduce positive supercoils in a closed circular DNA, has been isolated from the archaebacterium Sulfolobus acidocaldarius. This enzyme, fully active at 75 degrees C, performed in vitro positive supercoiling either from negatively supercoiled, or from relaxed DNA in a catalytic reaction. In the presence of polyethylene glycol (PEG 6000), this reaction became very fast and highly processive, and the product was positively supercoiled DNA with a high superhelical density (form I+). Very low (5 - 10 micromoles) ATP concentrations were sufficient to support full supercoiling; the nonhydrolyzable analogue adenosine-5' -0-(3-thiotriphosphate) also sustained the production of positive supercoils, but to a lesser extent, suggesting that ATP hydrolysis was necessary for efficient activity. Nevertheless, low residual of positive supercoiling occurred, even in the absence of ATP, when the substrate was negatively supercoiled. Finally, the different ATP-driven topoisomerizations observed, i.e., relaxation of negative supercoils and positive supercoiling, in all cases increased the linking number of DNA in steps of 1, suggesting the action of a type I, rather than a type II topoisomerase.=  相似文献   

12.
Considerable evidence supports a defect at the level of chromatin structure or recognition of that structure in cells from patients with the human genetic disorder ataxia-telangiectasia. Accordingly, we have investigated the activities of enzymes that alter the topology of DNA in Epstein Barr Virus-transformed lymphoblastoid cells from patients with this syndrome. Reduced activity of DNA topoisomerase II, determined by unknotting of P4 phage DNA, was observed in partially purified extracts from 5 ataxia-telangiectasia cell lines. The levels of enzyme activity was reduced substantially in 4 of these cell lines and to a lesser extent in the other cell line compared to controls. DNA topoisomerase I, assayed by relaxation of supercoiled DNA, was found to be present at comparable levels in both cell types. Reduced activity of topoisomerase II in ataxia-telangiectasia is compatible with the molecular, cellular and clinical changes described in this syndrome.  相似文献   

13.
Supercoiling of intracellular DNA can occur in eukaryotic cells   总被引:40,自引:0,他引:40  
G N Giaever  J C Wang 《Cell》1988,55(5):849-856
  相似文献   

14.
15.
F Pognan  C Paoletti 《Biochimie》1992,74(11):1019-1023
Topoisomerase II displays higher affinity for supercoiled DNA compared to the same relaxed DNA. Moreover, cruciform structures are formed in topologically constrained DNA. Here we report that, using S1 nuclease experiments on supercoiled DNA, hairpin structures are located close to numerous topoisomerase II cleavage sites on the BPV I genome. Therefore, DNA secondary structure may play a role in the recognition mechanism of DNA by topoisomerase II.  相似文献   

16.
The induction by interleukin-2 of DNA topoisomerase I and DNA topoisomerase II activities in the human T cell line HuT 78 was investigated. HuT 78 cells were treated with 1000 U of interleukin-2/ml, and extracts of the HuT 78 nuclei were prepared over a 24 h period. The extracts were assayed quantitatively for the activities of DNA topoisomerase I and DNA topoisomerase II. Three concomitant, transient increases of 3- to 11-fold in the specific activities of both DNA topoisomerase I and DNA topoisomerase II were observed following treatment with IL-2 at 0.5, 4, and 10 h after treatment with interleukin-2. The specific activities of both enzymes returned to base-line values after each of these transient increases. These results reveal that the activities of DNA topoisomerase I and DNA topoisomerase II are highly regulated in HuT 78 cells upon treatment with IL-2.  相似文献   

17.
18.
Topoisomerases are essential ubiquitous enzymes, falling into two distinct classes. A number of eubacteria including Escherichia coli, typically contain four topoisomerases, two type I topoisomerases and two type II topoisomerases viz. DNA gyrase and topoisomerase IV. In contrast several other bacterial genomes including mycobacteria, encode for one type I topoisomerase and a DNA gyrase. Here we describe a new type II topoisomerase from Mycobacterium smegmatis which is different from DNA gyrase or topoisomerase IV in its characteristics and origin. The topoisomerase is distinct with respect to domain organization, properties and drug sensitivity. The enzyme catalyses relaxation of negatively supercoiled DNA in an ATP-dependent manner and also introduces positive supercoils to both relaxed and negatively supercoiled substrates. The genes for this additional topoisomerase are not found in other sequenced mycobacterial genomes and may represent a distant lineage.  相似文献   

19.
Since topoisomerase poisons allow the enzyme to cut and covalently bind to DNA but abort the subsequent rejoining of the molecule after relieving the torsional stress. To study their action we have made use of a supercoiled form of the pRYG plasmid that bears a specific topoisomerase recognition and binding region. The conversion of the supercoiled circular double-stranded DNA to the linear and open circle forms in the presence of a topoisomerase II poison and a denaturation step by proteinase K-SDS is indicative of the efficiency of our test agents to stabilize the cleavable complex. Using this system, three glucosylated isoflavones (6'-methoxy-pseudobaptigenin-7-O-beta-glucoside, genistin, and daidzin) isolated from cytotoxic chloroform and ethyl acetate extracts of Retama sphaerocarpa Boissier, were found to have the ability to stabilize the cleavage complex human DNA topoisomerase II.  相似文献   

20.
DNA topoisomerases I and II are the two major nuclear enzymes capable of relieving torsional strain in DNA. Of these enzymes, topoisomerase I plays the dominant role in relieving torsional strain during chromatin assembly in cell extracts from oocytes, eggs, and early embryos. We tested if the topoisomerases are used differentially during chromatin assembly in Saccharomyces cerevisiae by a combined biochemical and pharmacological approach. As measured by plasmid supercoiling, nucleosome deposition is severely impaired in assembly extracts from a yeast mutant with no topoisomerase I and a temperature-sensitive form of topoisomerase II (strain top1-top2). Expression of wild-type topoisomerase II in strain top1-top2 fully restored assembly-driven supercoiling, and assembly was equally efficient in extracts from strains expressing either topoisomerase I or II alone. Supercoiling in top1-top2 extract was rescued by adding back either purified topoisomerase I or II. Using the topoisomerase II poison VP-16, we show that topoisomerase II activity during chromatin assembly is the same in the presence and absence of topoisomerase I. We conclude that both topoisomerases I and II can provide the DNA relaxation activity required for efficient chromatin assembly in mitotically cycling yeast cells.  相似文献   

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