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Enzyme
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Target Concepts:
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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DNA topoisomerase
VI from the hyperthermophilic archaeon Sulfolobus shibatae is the prototype of a novel family of type II DNA topoisomerases that share little sequence similarity with other type II enzymes, including bacterial and eukaryal type II DNA topoisomerases and archaeal DNA gyrases.
DNA topoisomerase
VI relaxes both negatively and positively supercoiled DNA in the presence of ATP and has no DNA supercoiling activity. The native enzyme is a heterotetramer composed of two subunits, A and B, with apparent molecular masses of 47 and 60 kDa, respectively. Here wereport the overexpression in Escherichia coli and the purification of each subunit. The A subunit exhibits clusters of arginines encoded by rare codons in
E.coli
. The expression of this protein thus requires the co-expression of the minor
E.coli
arginyl tRNA which reads AGG and AGA codons. The A subunit expressed in
E.coli
was obtained from inclusion bodies after denaturation and renaturation. The B subunit was overexpressed in
E.coli
and purified in soluble form. When purified B subunit was added to the renatured A subunit, ATP-dependent relaxation and decatenation activities of the hyperthermophilic
DNA topoisomerase
were reconstituted. The reconstituted recombinant enzyme exhibits a specific activity similar to the enzyme purified from S.shibatae . It catalyzes transient double-strand cleavage of DNA and becomes covalently attached to the ends of the cleaved DNA. This cleavage is detected only in the presence of both subunits and in the presence of ATP or its non-hydrolyzable analog AMPPNP.
...
PMID:Reconstitution of DNA topoisomerase VI of the thermophilic archaeon Sulfolobus shibatae from subunits separately overexpressed in Escherichia coli. 980 13
The gene encoding human
DNA topoisomerase
(topo) I, the target of numerous anticancer drugs, has been subcloned into bacterial, yeast and baculovirus-based expression systems in attempts to overexpress the enzyme for extensive structural and functional characterisation. Expression in
E.coli
produced a protein which was not suitable for structural studies. Expression in the yeast system was more successful enabling the enzyme to be purified and characterised. However, the resulting yield was modest for our requirements and the full-length protein was found to be susceptible to proteolysis when expressed in this system. As it is known that topo I from human placental tissue contains significant quantities of a 68kDa proteolytic fragment which retains both DNA relaxation and cleavage activity, we have isolated this fragment and shown by N-terminal sequence analysis that it starts at Lysine-191. This information was used to construct vectors which direct the overexpression of this fragment in baculovirus infected insect cells. The recombinant protein has been purified to homogeneity in a yield of 5-10mg/l of cell culture. The fragment is stable and retains all of the DNA driving activities of the intact enzyme. We have characterised the interactions of the topo I fragment with synthetic DNA substrates and identified oligonucleotides and conditions that allow covalent complexes between 68kDa topo I and DNA to be formed with high efficiency and in large quantity. A flow linear dichroism technique has been further developed and applied for real-time monitoring of supercoiled (sc) DNA relaxation by the enzyme and for comparative analysis of inhibition of 68kDa topo I by camptothecin (CPT).
...
PMID:Expression, purification and DNA-cleavage activity of recombinant 68-kDa human topoisomerase I-target for antitumor drugs. 1022 61
The gene encoding type II DNA topoisomerase from the kinetoplastid hemoflagellated protozoan parasite Leishmania donovani (LdTOP2) was isolated from a genomic DNA library of this parasite. DNA sequence analysis revealed an ORF of 3711 bp encoding a putative protein of 1236 amino acids with no introns. The deduced amino acid sequence of LdTOP2 showed strong homologies to TOP2 sequences from other kinetoplastids, namely Crithidia and Trypanosoma spp. with estimated identities of 86 and 68%, respectively. LdTOP2 shares a much lower identity of 32% with its human homologue. LdTOP2 is located as a single copy on a chromosome in the 0.7 Mb region in the L.donovani genome and is expressed as a 5 kb transcript. 5'-Mapping studies indicate that the LdTOP2 gene transcript is matured post-transcriptionally with the trans-splicing of the mini-exon occurring at -639 from the predicted initiation site. Antiserum raised in rabbit against glutathione S-transferase fusion protein containing the major catalytic portion of the recombinant L.donovani
topoisomerase
II protein could detect a band on western blots at approximately 132 kDa, the expected size of the entire protein. Use of the same antiserum for immunolocalisation analysis led to the identification of nuclear, as well as kinetoplast, antigens for L.donovani
topoisomerase
II. The in vitro biochemical properties of the full-length recombinant LdTOP2 when overexpressed in
E.coli
were similar to the Mg(II) and ATP-dependent activity found in cell extracts of L.donovani.
...
PMID:Characterisation of the gene encoding type II DNA topoisomerase from Leishmania donovani: a key molecular target in antileishmanial therapy. 1132 67
Type II DNA topoisomerases have been classified into two families, Topo IIA and Topo IIB, based on structural and mechanistic dissimilarities. Topo IIA is the target of many important antibiotics and antitumoural drugs, most of them being inactive on Topo IIB. The effects and mode of action of Topo IIA inhibitors in vitro and in vivo have been extensively studied for the last twenty-five years. In contrast, studies of Topo IIB inhibitors were lacking. To document this field, we have studied two Hsp90 inhibitors (radicicol and geldanamycin), known to interact with the ATP-binding site of Hsp90 (the Bergerat fold), which is also present in Topo IIB. Here, we report that radicicol inhibits the decatenation and relaxation activities of Sulfolobus shibatae
DNA topoisomerase
VI (a Topo IIB) while geldanamycin does not. In addition, radicicol has no effect on the Topo IIA Escherichia coli DNA gyrase. In agreement with their different effects on
DNA topoisomerase
VI, we found that radicicol can theoretically fit in the ATP-binding pocket of the
DNA topoisomerase
VI 'Bergerat fold', whereas geldanamycin cannot. Radicicol inhibited growths of Sulfolobus acidocaldarius (a crenarchaeon) and of Haloferax volcanii (a euryarchaeon) at the same doses that inhibited
DNA topoisomerase
VI in vitro. In contrast, the bacteria
E.coli
was resistant to this drug. Radicicol thus appears to be a very promising compound to study the mechanism of Topo IIB in vitro, as well as the biological roles of these enzymes in vivo.
...
PMID:Inhibition of archaeal growth and DNA topoisomerase VI activities by the Hsp90 inhibitor radicicol. 1584 17
The Bacillus cereus genome possesses three type IA
topoisomerase
genes. These genes, encoding DNA topoisomerase I and IIIalpha (bcTopo I, bcTopo IIIalpha), have been cloned into T7 RNA polymerase-regulated plasmid expression vectors and the enzymes have been overexpressed, purified and characterized. The proteins exhibit similar biochemical activity to their Escherichia coli counterparts, DNA topoisomerase I and III (ecTopo I, ecTopo III). bcTopo I is capable of efficiently relaxing negatively supercoiled DNA in the presence of Mg2+ but does not possess an efficient DNA decatenation activity. bcTopo IIIalpha is an active
topoisomerase
that is capable of relaxing supercoiled DNA at a broad range of Mg2+ concentrations; however, its DNA relaxation activity is not as efficient as that of bcTopo I. In addition, bcTopo III is a potent DNA decatenase that resolves oriC-based plasmid replication intermediates in vitro. Interestingly, bcTopo I and bcTopo IIIalpha are both able to compensate for the loss of ecTopo III in
E.coli
cells that lack ecTopo I. In contrast, ecTopo I cannot substitute for ecTopo III under these conditions.
...
PMID:Bacillus cereus DNA topoisomerase I and IIIalpha: purification, characterization and complementation of Escherichia coli TopoIII activity. 1619 70
We have developed high-throughput microtitre plate-based assays for DNA gyrase and other DNA topoisomerases. These assays exploit the fact that negatively supercoiled plasmids form intermolecular triplexes more efficiently than when they are relaxed. Two assays are presented, one using capture of a plasmid containing a single triplex-forming sequence by an oligonucleotide tethered to the surface of a microtitre plate and subsequent detection by staining with a DNA-specific fluorescent dye. The other uses capture of a plasmid containing two triplex-forming sequences by an oligonucleotide tethered to the surface of a microtitre plate and subsequent detection by a second oligonucleotide that is radiolabelled. The assays are shown to be appropriate for assaying DNA supercoiling by Escherichia coli DNA gyrase and DNA relaxation by eukaryotic topoisomerases I and II, and
E.coli
topoisomerase
IV. The assays are readily adaptable to other enzymes that change DNA supercoiling (e.g. restriction enzymes) and are suitable for use in a high-throughput format.
...
PMID:High-throughput assays for DNA gyrase and other topoisomerases. 1693 17
Fluoroquinolones which are in use since 1986, are effective agents both against gram-positive and gram-negative bacteria. Quinolones show bactericidal effect as a result of inhibition of DNA gyrase and
topoisomerase
IV enzymes. Main quinolone resistance mechanisms are chromosomal mutations in these enzymes and decreased intracellular accumulation due to efflux pumps or decreased membrane uptake. Recently a new quinolone resistance mechanism mediated by plasmids has been defined. These plasmids carry genes called as qnr. Qnr genes do not cause quinolone resistance but they cause decreased quinolone susceptibility and lead to higher minimum inhibitory concentrations. Currently there are qnrA, qnrB, qnrC, qnrD and qnrS genes. This study was aimed to investigate the presence of plasmid-mediated quinolone resistance determinants in Enterobacteriaceae isolates collected from four different centers in Turkey. A total of 647 isolates (387 from Trabzon, Black Sea region; 82 from Canakkale, Trace region; 96 from Ankara, Central Anatolia region; 82 from Tokat, Black Sea region) belonging to the Enterobacteriaceae family collected between May-July 2009, were included in the study. Presence of qnrA, qnrB, qnrS and qnrC genes were investigated by multiplex polymerase chain reaction (PCR) method and confirmed by gene sequencing. The results of the PCR amplification revealed that 2 isolates were positive for qnrA, 12 isolates were positive for qnrB, 4 isolates were positive for qnrC and 10 isolates were positive for qnrS. However, the number of positive strains decreased with the use of gene sequencing, and this method led to the identification of qnrA1 in two isolates [Enterobacter cloacae (code. 796), Salmonella group B (code. 491)], qnrB1 in two isolates [Salmonella group B (code. 491), Citrobacter freundii (code. 768)], qnrB6 in one isolate [Escherichia coli (code. CC1800)], qnrB9 in one isolate [
E.coli
(code. CC1873)], qnrB24 in one isolate [Citrobacter koseri (code. MP5200)], qnrB27 in one isolate [C.freundii (code. 842)], qnrS1 in two isolates [
E.coli
(code. CC1705),
E.coli
(code.159)] and qnrB2 in one isolate [
E.coli
(code. 843)]. One of the isolates that carried the qnr gene was ciprofloxacin-resistant and two isolates were nalidixic-acid resistant. Transferable quinolone resistance due to the dissemination of qnr genes may have important impacts in terms of infection control and treatment problems. Survey of plasmid mediated quinolone resistance will help to determine the size of the issue and guide the measures that should be taken to avoid escalation of resistance and dissemination problem.
...
PMID:[Investigation of plasmid-mediated quinolone resistance determinants in Enterobacteriaceae: a multicenter study]. 2295 49
During the hunting season 2013-2014, fecal samples collected from hare, roe deer, deer and wild boars were sent to the bacteriology laboratory for the isolation of Escherichia coli and multidrug resistant isolates were characterized phenotypically and genotypically. Out of 106 fecal samples, E. coli was isolated from 101 samples. Although the majority of isolates belonged to phylogenetic groups A and B1, 14 out of 101 isolates were affiliated to group B2. A multidrug resistance phenotype was determined in 7 isolates, all of which had distinguishable genomic macrorestriction profiles. PCR analysis and sequencing revealed a variety of resistance genes, gene cassettes and cassette arrays in these multidrug resistant isolates. Resistance to fluoroquinolones was found in five E. coli isolates (two from a roe deer, one from a deer and two from a wild boar) and multiple mutations in the chromosomal
topoisomerase
genes were identified. In an
E.coli
isolate from a hare, the qnrB19 gene was detected. The same isolate carried an aadA23 gene cassette in class 1 integron. In addition, an extended- spectrum beta-lactamase bla
CTX-M-1
gene was detected in an E. coli isolate from a roe deer. The gene was located on a conjugative multi resistance plasmid, which was transferable to a plasmid free E. coli recipient. In conclusion, a number of resistance genes and mobile genetic elements were detected in E. coli isolates from wildlife in Vojvodina, emphasizing the role of environmental pollution in spreading resistant bacteria.
...
PMID:Fluoroquinolone-resistant and extended-spectrum beta-lactamase producing Escherichia coli isolates from free-living wild animals. 3017 43
Bisbenzimidazoles with terminal alkynyl linkers, selective inhibitors of bacterial topoisomerase I, have been evaluated using bacterial cytological profiling (BCP) to ascertain their mechanism of action and screened for synergism to improve Gram-negative bacterial coverage. Principal component analysis of high throughput fluorescence images suggests a dual-mechanism of action affecting DNA synthesis and cell membrane integrity. Fluorescence microscopy of bacteria challenged with two of the alkynyl-benzimidazoles revealed changes in the cellular ultrastructure that differed from
topoisomerase
II inhibitors including induction of spheroplasts and membrane lysis. The cytoskeleton recruitment enzyme inhibitor A22 in combination with one of the alkynyl-benzimidazoles was synergistic against Acinetobacter baumannii and Escherichia coli. Gram-positive coverage remained unchanged in the A22-alkynyl bisbenzimidazole combination. Efflux inhibitors were not synergistic, suggesting that the Gram-negative outer membrane was a significant barrier for alkynyl-bisbenzimidazole uptake. Time-kill assays demonstrated the A22-bisbenzimidazole combination had a similar growth inhibition curve to that of norfloxacin in
E.coli
. Bisbenzimidazoles with terminal alkynyl linkers likely impede bacterial growth by compromising cell membrane integrity and by interfering with DNA synthesis against Gram-positive pathogens and in the synergistic combination against Gram-negative pathogens including E. coli and multidrug-resistant A. baumanii.
...
PMID:Gram-negative synergy and mechanism of action of alkynyl bisbenzimidazoles. 3157 25
