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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)
Analysis of vaccinia
topoisomerase
mutants that are impaired in DNA relaxation has allowed the identification of amino acid residues required for the transesterification step of catalysis. Missense mutations of wild-type residues
Gly
-132----Asp and Arg-223----Gln rendered the protein inert in formation of the covalent enzyme-DNA complex and hence completely inactive in DNA relaxation. Mutations of Thr-147----Ile and
Gly
-132----Ser caused severe defects in covalent adduct formation that correlated with the extent of inhibition of relaxation. None of these point mutations had an effect on noncovalent DNA binding sufficient to account for the defect in relaxation. Deletion of amino- or carboxyl-terminal portions of the polypeptide abrogated noncovalent DNA binding. Two distinct
topoisomerase
-DNA complexes were resolved by native gel electrophoresis. One complex, which was unique to those proteins competent in covalent adduct formation, contained
topoisomerase
bound to the 5'-portion of the incised DNA strand. The 3'-segment of the cleaved strand had dissociated spontaneously. This complex was isolated and shown to catalyze transfer of the covalently bound DNA to a heterologous acceptor oligonucleotide, thereby proving that the covalent adduct between protein and duplex DNA is a true intermediate in strand breakage and reunion. The role of the active site region of eukaryotic
topoisomerase
in determining sensitivity or resistance to camptothecin was examined by converting the active site region of the resistant vaccinia enzyme (SKRAY274) to that of the drug-sensitive yeast enzyme (SKINY). The SKINY mutation did not alter the resistance of the vaccinia enzyme to the cleavage-enhancing effects of camptothecin.
...
PMID:Covalent and noncovalent DNA binding by mutants of vaccinia DNA topoisomerase I. 132 12
The eukaryotic family of type I DNA topoisomerases includes the nuclear type I enzymes and the enzymes encoded by vaccinia and other poxviruses. The small size of the vaccinia
topoisomerase
(314 amino acids as compared to 765-972 amino acids for the cellular enzymes) makes it likely that this protein constitutes the minimal functional unit of a eukaryotic type I enzyme and provides an opportunity for a comprehensive structure-function analysis through mutagenesis. Two protein subregions were targeted for mutagenesis in the present study. The role of the Ser-Lys-X-X-Tyr sequence present at the active site of all family members was examined by replacing each conserved residue with alanine. Alanine substitution at the active site Tyr abrogated
topoisomerase
activity. In contrast, mutations at Ser-270 and Lys-271 had no effect on enzyme activity. The region of the vaccinia
topoisomerase
from amino acids 126-142 (MFFIRFGKMKYLKENET) is highly conserved and contains a residue,
Gly
-132, shown previously to be essential. Twenty-nine different mutations were generated in this region, with at least one substitution at each position. Point mutations were identified at three positions, Arg-130, Tyr-136, and Leu-137, which either abrogated or severely reduced DNA relaxation. The effects on activity could be attributed to a defect in formation of the covalent intermediate. Alterations of 13 other amino acids, including conserved residues, had little or no effect on
topoisomerase
activity.
...
PMID:Mutational analysis of vaccinia DNA topoisomerase defines amino acid residues essential for covalent catalysis. 796 97
Reverse transcription-PCR-single-strand conformation polymorphism analysis was performed to detect
topoisomerase
IIalpha mutations using total RNA from 19 bronchial biopsy specimens obtained from 13 patients with small cell lung cancer. An abnormally migrating single-strand conformation polymorphism band was observed in one tumor sample from a patient treated with etoposide-containing chemotherapy. DNA sequence analysis of this tumor showed two transversions at codons 486 (G to A) and 494 (A to G), resulting in two missense mutations (Arg to Lys and Glu to
Gly
, respectively). The codon 486 mutation was identical to that previously found in two cell lines selected for amsacrine resistance. These results demonstrate that mutations of
topoisomerase
IIalpha occur in patients with small cell lung cancer. The significance of these mutations in the development of resistance to etoposide needs further investigation.
...
PMID:Point mutations of the topoisomerase IIalpha gene in patients with small cell lung cancer treated with etoposide. 864 Aug 4
Fifteen strains of Escherichia coli with MICs of ciprofloxacin (CIP) between 0.015 and 256 micrograms/ml were examined for the presence of mutations in the quinolone resistance-determining region of the gyrA gene and in an analogous region of the parC gene. No mutation was found in a susceptible isolate (MIC of CIP, 0.015 microgram/ml). Four moderately resistant strains (MIC of CIP 0.06 to 4 micrograms/ml) carried one gyrA mutation affecting serine 83, but in only one strain was an additional parC mutation (
Gly
-78 to Asp) detected. All ten highly resistant strains examined (MIC of CIP, > 4 micrograms/ml) carried two gyrA mutations affecting residues serine 83 and aspartate 87, and at least one parC mutation. These parC mutations included alterations of serine 80 to arginine or isoleucine and glutamate 84 to glycine or lysine. The parC+ and two mutant alleles (parCI-80 and parCI-80,G-84) were inserted into the mobilizable vector pBP507. Transfer of a plasmid-coded parC+ allele into parC+ strains did not alter the susceptibilities towards ciprofloxacin or nalidixic acid, while a significant increase in susceptibility was detectable for parC mutants. This increase, however, did not restore wild-type susceptibility, whereas transfer of a plasmid-coded gyrA+ allele alone or in combination with parC+ did. These data are in agreement with the view that
topoisomerase
IV is a secondary, less sensitive target for quinolone action in Escherichia coli and that the development of high-level fluoroquinolone resistance in E. coli requires at least one parC mutation in addition to the gyrA mutation(s).
...
PMID:Genetic evidence for a role of parC mutations in development of high-level fluoroquinolone resistance in Escherichia coli. 884 44
Escherichia coli quinolone-resistant strains with mutations of the parC gene, which codes for a subunit of
topoisomerase
IV, were isolated from a quinolone-resistant gyrA mutant of DNA gyrase. Quinolone-resistant parC mutants were also identified among the quinolone-resistant clinical strains. The parC mutants became susceptible to quinolones by introduction of a parC+ plasmid. Introduction of the multicopy plasmids carrying the quinolone-resistant parC mutant gene resulted in an increase in MICs of quinolones for the parC+ and quinolone-resistant gyrA strain. Nucleotide sequences of the quinolone-resistant parC mutant genes were determined, and missense mutations at position
Gly
-78, Ser-80, or Glu-84, corresponding to those in the quinolone-resistance-determining region of DNA gyrase, were identified. These results indicate that
topoisomerase
IV is a target of quinolones in E. coli and suggest that the susceptibility of E. coli cells to quinolones is determined by sensitivity of the targets, DNA gyrase and
topoisomerase
IV.
...
PMID:Quinolone-resistant mutants of escherichia coli DNA topoisomerase IV parC gene. 885 98
Vaccinia
topoisomerase
, a eukaryotic type IB enzyme, catalyzes relaxation of supercoiled DNA by cleaving and rejoining DNA strands through a DNA- (3'-phosphotyrosyl)-enzyme intermediate. We have performed a kinetic analysis of mutational effects at four essential amino acids: Arg-130,
Gly
-132, Tyr-136 and Lys-167. Arg-130,
Gly
-132 and Lys-167 are conserved in all members of the type IB
topoisomerase
family. Tyr-136 is conserved in all poxvirus topoisomerases. We show that Arg-130 and Lys-167 are required for transesterification chemistry. Arg-130 enhances the rates of both cleavage and religation by 10(5). Lys-167 enhances the cleavage and religation reactions by 10(3) and 10(4), respectively. An instructive distinction between these two essential residues is that Arg-130 cannot be replaced by lysine, whereas substituting Lys-167 by arginine resulted in partial restoration of function relative to the alanine mutant. We propose that both basic residues interact directly with the scissile phosphate at the
topoisomerase
active site. Mutations at positions
Gly
-132 and Tyr-136 reduced the rate of strand cleavage by more than two orders of magnitude, but elicited only mild effects on religation rate.
Gly
-132 and Tyr-136 are suggested to facilitate a pre-cleavage activation step. The results of comprehensive mutagenesis of the vaccinia
topoisomerase
illuminate mechanistic and structural similarities to site-specific recombinases.
...
PMID:Mechanism of DNA transesterification by vaccinia topoisomerase: catalytic contributions of essential residues Arg-130, Gly-132, Tyr-136 and Lys-167. 922 99
The occurrence of mutations in the genes coding for gyrase (gyrA and gyrB) and
topoisomerase
IV (parE and parC) of Salmonella typhimurium experimental mutants selected in vitro and in vivo and of 138 nalidixic acid-resistant Salmonella field isolates was investigated. The sequencing of the quinolone resistance-determining region of these genes in highly fluoroquinolone-resistant mutants (MICs of 4 to 16 microg/ml) revealed the presence of gyrA mutations at codons corresponding to
Gly
-81 or Ser-83, some of which were associated with a mutation at Asp-87. No mutations were found in the gyrB, parC, and parE genes. An assay combining allele-specific PCR and restriction fragment length polymorphism was developed to rapidly screen mutations at codons 81, 83, and 87 of gyrA. The MICs of ciprofloxacin for the field isolates reached only 2 microg/ml, versus 16 microg/ml for some in vitro-selected mutants. The field isolates, like the mutants selected in vivo, had only a single gyrA mutation at codon 83 or 87. Single gyrA mutations were also found in highly resistant in vitro-selected mutants (MIC of ciprofloxacin, 8 microg/ml), which indicates that mechanisms other than the unique modification of the intracellular targets could participate in fluoroquinolone resistance in Salmonella spp. A comparison of experimental mutants selected in vitro, field strains, and mutants selected in vivo suggests that highly fluoroquinolone-resistant strains are counterselected in field conditions in the absence of selective pressure.
...
PMID:Comparative studies of mutations in animal isolates and experimental in vitro- and in vivo-selected mutants of Salmonella spp. suggest a counterselection of highly fluoroquinolone-resistant strains in the field. 1047 53
The new olivacine derivative S16020-2 (NSC-659687) is a
DNA topoisomerase II
inhibitor endowed with a remarkable antitumor activity against various experimental tumors. In vitro physicochemical properties of this compound, in particular its interaction with DNA and
DNA topoisomerase II
, were very similar to those of ellipticine derivatives, except for a strictly ATP-dependent mechanism of cleavable complex induction. From the Chinese hamster lung fibroblast cell line DC-3F, a subline resistant to S16020-2, named DC-3F/S16, was selected by adding stepwise increasing concentrations of the drug to the cell growth medium. Whereas DC-3F/9-OH-E cells, a DC-3F subline resistant to 9-hydroxy-ellipticine, are cross-resistant to S16020-2, DC-3F/S16 cells are only very weakly cross-resistant to ellipticine derivatives, indicating that, despite their structural similarity, these compounds may differ in their mechanisms of action. Uptake and efflux rates of S16020-2 were identical in the resistant and the sensitive cells. Topoisomerase IIalpha was expressed at the same level in both sensitive and resistant cells, whereas expression of the beta-enzyme was approximately 50% lower in the resistant cells. Sequencing of both alpha- and beta-isoform cDNAs revealed a point mutation that converts Arg(486) to a
Gly
in the alpha cDNA, whereas the beta cDNA was not modified. This amino acid substitution in a highly conserved sequence of the enzyme appears to be responsible for the resistance to S16020-2. Comparative analysis of the properties of the ellipticine and S16020-2-resistant cells suggests that S16020-2, which is a DNA intercalator, might also interact with this enzyme amino acid sequence through its side chain.
...
PMID:Cellular resistance to the antitumor DNA topoisomerase II inhibitor S16020-2: importance of the N-[2(Dimethylamino)ethyl]carbamoyl side chain. 1099 40
Ribosomes bypass a 50 nucleotide non-coding segment of mRNA between the two open reading frames of bacteriophage T4 gene 60 in order to synthesize a
topoisomerase
subunit. While nearly all ribosomes appear to initiate bypassing, only 50 % resume translation in the second open reading frame. Failure to bypass is shown here to be independent of the stop codon at the end of the first open reading frame and to be amplified by mutant variants of tRNA(
Gly
)(2) known to diminish bypassing efficiency. Unproductive bypassing may result from premature dissociation of peptidyl-tRNAs from ribosomes (drop-off) or resumption of translation at inappropriate sites. Assessment of the influence of factors known to induce drop-off reveals that ribosome recycling factor accounts for a small fraction of unproductive bypassing products, but none of the other known factors appear to play a significant role. Resumption of translation at inappropriate sites appears to be minimal, which suggests that spontaneous release of the peptidyl-tRNA may account for the remaining unproductive bypassing products and may be inherent to the gene 60 bypassing mechanism.
...
PMID:Drop-off during ribosome hopping. 1149 98
We studied the mutation effect of one of the putative loop residues Thr792 in human
DNA topoisomerase II
alpha (TOP2 alpha). Thr792 mutants were expressed from high or low copy plasmids in a temperature sensitive yeast strain deficient in TOP2 (top2-1). When expressed from a high copy plasmid, mutants with small side chains complemented the yeast defect; however, from a low copy plasmid, only wild-type, Ser, and Cys substitution mutants complemented the yeast defect. Interestingly, at the permissive temperature other mutants (e.g., Val,
Gly
, and Glu substitutions) showed the dominant negative effect to the top2-1 allele, which was not observed by the control alpha 4-helix mutants. T792E mutant was 10-fold less active than wild-type and the T792P had no decatenation activity in vitro. These results suggest that Thr792 in human TOP2 alpha is involved in enzyme catalysis.
...
PMID:Function of the loop residue Thr792 in human DNA topoisomerase II alpha. 1264 64
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