EC:5.99.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A Rhodopseudomonas capsulata nifH::lacZ gene fusion was used to isolate constitutive mutants of R. capsulata, unable to repress nif gene transcription anaerobically with every fixed-nitrogen source tested. When these nifc strains were grown aerobically, nif gene transcription was repressed. These results indicate that the regulation of nif gene transcription by fixed nitrogen is different from the regulation by oxygen. Under anaerobic conditions, nif gene transcription in both R. capsulata and Klebsiella pneumoniae is specifically prevented by inhibitors of DNA gyrase [DNA topoisomerase type II (ATP-hydrolyzing), EC 5.99.1.3]. A recent study has shown that anaerobically grown Salmonella typhimurium have high DNA gyrase activity, whereas aerobically grown cells have high DNA topoisomerase type I (EC 5.99.1.2) activity and DNA that is more relaxed [Yamamoto, N. & Droffner, M. L. (1985) Proc. Natl. Acad. Sci. USA 82, 2077-2081]. In view of these results, we suggest that the control of nif gene transcription in response to oxygen is determined by the action of DNA gyrase and DNA topoisomerase I. Thus, although nitrogen control of nif gene expression requires the products of regulatory genes for which constitutive mutations can be isolated, oxygen appears instead to prevent the adoption of a DNA conformation necessary, directly or indirectly, for nif gene transcription.
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PMID:Anaerobic regulation of nitrogen-fixation genes in Rhodopseudomonas capsulata. 301 47

Mechanisms of bacterial resistance to fluoroquinolones fall into two principal categories, alterations in drug target enzymes and alterations that limit permeation of drug to the target, both resulting from chromosomal mutations. No specific resistance mechanisms of quinolone degradation or modification have been found. The target enzymes, DNA gyrase and topoisomerase IV are most commonly altered in domains near the enzyme active sites and in some cases reduced drug binding affinity has been demonstrated. Drug permeation is altered by mutations that increase expression of endogenous multidrug efflux pumps, alter outer membrane diffusion channels, or both. Recently a new plasmid-mediated resistance of an as yet undefined mechanism was found in clinical isolates of Klebsiella pneumoniae. Copyright 1999 Harcourt Publishers Ltd.
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PMID:Mechanisms of fluoroquinolone resistance. 1150 68

We investigated the in vitro and in vivo antibacterial activities of pazufloxacin mesilate (PZFX mesilate), a new injectable quinolone, and obtained the following results. 1) The MIC50 and MIC90 values of PZFX against clinically isolated Gram-positive and -negative bacteria, ranged from 0.0125 to 12.5 micrograms/ml and 0.025 to 100 micrograms/ml, respectively. PZFX showed broad spectrum activity. The antibacterial activities of PZFX against quinolone-susceptible, methicillin-resistant Staphylococcus aureus, beta-lactamase-negative, ampicillin-resistant Haemophilus influenzae, extended spectrum beta-lactamase possessing Klebsiella pneumoniae and imipenem/cilastatine (IPM/CS)-resistant Pseudomonas aeruginosa were superior to those of ceftazidime (CAZ), ceftriaxone, IPM/CS, meropenem and panipenem/betamipron. 2) PZFX showed superior bactericidal activity against S. aureus, Escherichia coli, Proteus mirabilis, Serratia marcescens and P. aeruginosa to those of CAZ and IPM/CS after treatment for 15 minutes at the drug concentration equivalent to that in human serum at clinical dose to be continued for 15 minutes. 3) CAZ and IPM/CS had no bactericidal activity at the 16 times of MIC against P. aeruginosa in human polymorphonuclear leucocytes, while PZFX exhibited potent bactericidal activity in a dose-dependent manner against such bacteria. 4) PZFX inhibited both DNA gyrase and topoisomerase IV from S. aureus at nearly the same level. PZFX showed poor inhibitory activity against topoisomerase II from human placenta and showed high selectivity to bacterial topoisomerase. 5) PZFX mesilate showed superior therapeutic activity to that of CAZ with following infection model caused by S. aureus and P. aeruginosa or each; systemic infection with cyclophosphamide-treated mice, systemic infection in mice with high challenge doses, CMC pouch infection in rat, and calculus infection in rat bladder. 6) Intravenous administration of PZFX with high plasma concentration just after administration, showed more excellent therapeutic effect against the rat intraperitoneal infection, than p.o. and s.c. administration.
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PMID:[In vitro and in vivo antibacterial activities of pazufloxacin mesilate, a new injectable quinolone]. 1237 71

The relationships between porin deficiency, active efflux of fluoroquinolones, and extended-spectrum beta-lactamase (ESBL) production were determined for 53 clinical isolates of Klebsiella pneumoniae. Thirty-two ESBL-positive strains (including 22 strains expressing porins and 10 strains lacking porins) and 21 ESBL-negative strains were evaluated. Active efflux of norfloxacin was defined as a >/=50% increase in the accumulation of norfloxacin in the presence of carbonyl cyanide m-chlorophenylhydrazone (CCCP) in comparison with the corresponding basal value in the absence of CCCP. The quinolone resistance-determining regions of both gyrA and parC from 13 strains, representing all isolates with different porin profiles and with or without active efflux, were determined. Porin loss was significantly more common among ESBL-positive strains (10 of 32 [31.2%]) than among ESBL-negative strains (0 of 2 [0%]) (P < 0.01). Active efflux was observed in 7 of 10 (70%) strains lacking porins and in 4 of 43 (9.3%) strains producing porins (P < 0.001). The 11 strains showing active efflux corresponded to 3 of 21 (14.3%) ESBL-negative strains and 8 of 32 (25.5%) ESBL-positive strains (P > 0.05). Basal values of norfloxacin accumulation were higher in strains lacking active efflux than in those that had this mechanism (P < 0.05). In the absence of topoisomerase changes, the contribution of either porin loss or active efflux to fluoroquinolone resistance in K. pneumoniae was negligible. It is concluded that among K. pneumoniae strains of clinical origin, porin loss was observed only in those producing ESBL, and that a significant number of porin-deficient strains also expressed active efflux of norfloxacin. In terms of fluoroquinolone resistance, both mechanisms are significant only in the presence of topoisomerase modifications.
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PMID:Energy-dependent accumulation of norfloxacin and porin expression in clinical isolates of Klebsiella pneumoniae and relationship to extended-spectrum beta-lactamase production. 1243 97

Seven Klebsiella pneumoniae and four Klebsiella oxytoca clinical isolates with different levels of resistance to ciprofloxacin were studied. Mutations in the topoisomerase genes were found in almost all strains, but the contribution of a multidrug efflux system homologous to AcrAB in Escherichia coli was also observed. Overexpression of this efflux system was demonstrated by immunoblotting with antibodies against E. coli AcrA.
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PMID:AcrAB Efflux System: Expression and Contribution to Fluoroquinolone Resistance in Klebsiella spp. 1243 6

Two sequential clinical isolates of Klebsiella pneumoniae (Kpn) were isolated from bronchoalveolar lavage fluid (Kpn#1) and sputum (Kpn#2) of a patient with pneumonia, complicated by anatomical and immunosuppressive problems due to Wegener's granulomatosis. Despite 4 weeks of systemic treatment with ciprofloxacin (CIP) Kpn#2 was isolated thereafter. A fluoroquinolone-resistant mutant (Kpn#1-SEL) was derived from Kpn#1 in vitro by selecting on agar plates supplemented with ofloxacin. Kpn#1, Kpn#1-SEL and Kpn#2 had an identical pattern in PFGE. CIP MICs were 0.25, 2 and 4 mg/l for Kpn#1, Kpn#2 and Kpn#1-SEL, respectively. Kpn ATCC 10031 (CIP MIC 0.002 mg/l) served as control. We analyzed mechanisms of fluoroquinolone resistance by determining antibiotic susceptibility, organic solvent tolerance, accumulation of fluoroquinolones, dominance testing with wild-type topoisomerase genes (gyrA/B, parC/E), sequencing of the quinolone resistance determining regions of gyrA/B, parC/E and marR and Northern blotting of marR and acrAB genes. Compared with Kpn ATCC 10031, elevated MICs to fluoroquinolones and unrelated antibiotics in Kpn#1 was presumably due to a primary efflux pump other than AcrAB and increased the CIP MIC 125-fold. Although Kpn#1 tested sensitive according to NCCLS breakpoints, the elevated CIP MIC of 0.25 mg/l presumably rendered this isolate clinically resistant and lead to therapeutic failure in this case. Further increase of MIC to fluoroquinolones in vivo and in vitro was distinct. Kpn#1-SEL, selected in vitro, acquired a GyrA target mutation, whereas in Kpn#2 no known resistance mechanism could be detected.
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PMID:Clinically significant borderline resistance of sequential clinical isolates of Klebsiella pneumoniae. 1452 99

Protelomerases are enzymes responsible for the generation of closed hairpin ends in linear DNA. It is proposed that they use a breaking-and-rejoin type mechanism to affect DNA rearrangement on specific DNA sequences. In doing so, one strand turns around and becomes the complementary strand. Using the purified enzyme from the Escherichia coli phage N15 and the Klebsiella phage phiKO2 and synthetic oligonucleotide substrates, we directly demonstrate the location where the cutting/re-ligation occurs. We identified a pair of transient staggered cleavages six base-pairs apart centered around the axis of dyad symmetry of the target site. Two molecules of the protelomerase form a pair of protein-linked DNA intermediates at each 3' end of the cleaved openings leaving a 5'-OH. Then, in a process not yet clearly defined, the partners of the two initial openings are exchanged, and the transient breaks are resealed to generate hairpin ends. The formation of 3'-covalent DNA-protein intermediates is a hallmark of the topoisomerase IB type reaction, and we have thus shown experimentally that protelomerase is a member of the tyrosine-recombinase superfamily. In addition, by introducing single nicks in the substrates as perturbation, we found that the integrity of the nucleotide chain 4 bp away from the cutting site as well as this nucleotide's complementary location on the stem if the strands were to fold into a cruciform structure are required for activity, suggesting that these locations may be important substrate-protein contacts. We determined that N15 and phiKO2 protelomerases are monomers in solution and two molecules are needed to interact with the substrate to form two closed hairpin products. The target sites of protelomerases invariably consist of inverted repeats. Comparative studies using the related target sites of different protelomerases suggest that these proteins may require both sequence-specific and structure (possibly cruciform)-specific recognition for activity.
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PMID:Protelomerase uses a topoisomerase IB/Y-recombinase type mechanism to generate DNA hairpin ends. 1500 53

Quinolone resistance is caused mainly by chromosomal mutations in gram negative bacteria. In 1998, plasmid-mediated resistance to quinolones in clinical isolates was first reported in a Klebsiella pneumoniae strain. Locus qnr (quinolone resistance) was responsible of the quinolone resistance in this plasmid. qnr codes a protein whose function is protect both DNA-girase and topoisomerase IV from these antimicrobials. Moreover, qnr is located in an integron-like structure upstream of qacEDelta y sul1. A review of the information obtained in the last years about this mechanism of resistance was performed.
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PMID:[Mechanisms of plasmid-mediated resistance to quinolones]. 1570 30

Six new bimetallic complexes of the type CuCu, CuCo, CuNi, CuZn and CuMn were prepared. The structures of these complexes and the ligand have been proposed on the basis of FAB mass, elemental analysis, UV-vis, IR, EPR and CV studies. All the complexes completely cleave pBS (SK-) DNA at a concentration of 10 microM; however, even at lower concentrations of 2 microM and 0.1 microM, the complexes (I and Ia) showed partial cleavage. The results of the fluorescence binding studies of the metal complexes with CT-DNA showed that the presence of aliphatic ligands added additional binding effects including electrostatic, hydrogen binding and vander Waals interactions. Complexes (I, Ia) showed 50% inhibition of COX-1 and COX-2 activities at as low a concentration as 12.5 microM, 13.5 microM, 14 microM and 14.5 microM. Inhibition assay of top I and top II by different complexes in mutant yeast strains (JN394, JN394 t(-1) and JN394 t(2-5)) with all the complexes showed significant inhibition of topoisomerase at 5 microM concentration. Complexes I and Ia exhibited good anti-microbial activities against all human pathogens tested except Klebsiella pneumoniae. The following studies showed that among the synthesized bimetallic complexes, complexes I and Ia seem to be promising candidates possessing DNA cleavage activities besides anti-microbial and anti-inflammatory properties to serve as chemical nucleases and chemotherapeutic agents.
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PMID:Synthesis, characterization and in vitro biological activity studies of Cu-M (M = Cu2+, Co2+, Ni2+, Mn2+, Zn2+) bimetallic complexes. 1701 70

Ethidium monoazide (EMA) is a DNA intercalating agent and a eukaryotic topoisomerase II poison. We found that EMA treatment and subsequent visible light irradiation (photoactivation or photolysis) shows a bactericidal effect, hence the mechanism was analyzed. When bacterial cells were treated with more than 10 microg/ml of EMA for 1 hr plus photoactivation for 20 min, cleavage of bacterial DNA was confirmed by agarose gel electrophoresis and electron microscopic studies. The cleavage of chromosomal DNA was seen when it was treated in vitro with EMA and photolysis, which showed that the cleavage directly took place without the assistance of DNA gyrase/topoisomerase IV and the DNA repair enzymes of bacteria. It was also verified, by using negatively supercoiled pBR322 DNA, that medium/high concentrations of EMA (1 to 100 microg/ml) led to breaks of double-stranded DNA and that low concentrations of EMA (10 to 100 ng/ml) generated a single-stranded break. EMA is known to easily penetrate dead but not live bacteria. After treatment of 10 microg/ml of EMA for 30 min and photoactivation for 5 min, EMA cleaved the DNA of dead but not live Klebsiella oxytoca. When the cleaved DNA was used for templates in PCR targeting 16S rDNA, PCR product from the dead bacteria was completely suppressed. We demonstrated that EMA and photolysis directly cleaved bacterial DNA and are effective tools for discriminating live from dead bacteria by PCR.
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PMID:Photoactivated ethidium monoazide directly cleaves bacterial DNA and is applied to PCR for discrimination of live and dead bacteria. 1770 39

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