UMLS:C0085631 - FACTA Search

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Query: UMLS:C0085631 (agitation)
12,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Xanthine oxidase suffers autoinactivation in the course of catalyzing the oxidation of acetaldehyde. When no special efforts were made to maintain a high pO2 in these reaction mixtures catalase protected the xanthine oxidase, but superoxide dismutase did not. However, when oxygen depletion was slowed or prevented by working at lower concentrations of xanthine oxidase, at lower temperatures or by vigorous agitation under an atmosphere of 100% oxygen, superoxide dismutase or catalase protected markedly when added separately and protected almost completely when added together. This result correlates with the greater production of O2-, relative to H2O2, by xanthine oxidase, at elevated pO2. Since histidine also provided some protection and the high levels of acetaldehyde used would have precluded any significant effect of OH., we conclude that singlet oxygen, or something with similar reactivity, was generated from O2- plus H2O2 and contributed significantly to the observed autoinactivation.
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PMID:Autoinactivation of xanthine oxidase: the role of superoxide radical and hydrogen peroxide. 22 31

Dog platelets are refractory to aggregation by arachidonic acid (AA) but generate an unstable activity that aggregates rabbit platelets. Formation of this activity is inhibited by indomethacin, by the peroxide scavenging enzyme catalase, by two chelating agents that bind Cu+ and Cu2+ ions, by the -SH agent dithiothreitol and is stimulated by cysteine. Agitation of dog platelets is followed by spontaneous aggregation and uncovers aggregation by AA, which is blocked by indomethacin. Neither indomethacin nor apyrase prevent spontaneous aggregation, ruling out both activation of prostaglandin synthetase and leakage of ADP as possible explanations. Complexation of plasma Ca2+ by citrate as an explanation for refractoriness to AA was ruled out by replacing citrate with heparin. Dog platelets are also refractory to PGH2 formed from AA by the cyclo oxygenase component of prostaglandin synthetase. Aggregation of rabbit platelets by PGH2 is not inhibited by indomethacin, by catalase, by dithiothreitol or by metal chelating agents and is not potentiated by cysteine. This confirms that the reagents act before PGH2 is formed. Aggregating activity generated by dog platelets is probably due to an unstable lipoperoxide whose generation involves mechanisms similar to those responsible for aggregation of rabbit platelets, since similar antagonists block both processes.
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PMID:Dog platelets fail to aggregate when they form aggregating substances upon stimulation with arachidonic acid. 95 35

A quantitative method was developed for the measurement of micromolar quantities of H2O2 produced in Rogosa broth and peptonized milk broth by vaginal strains of lactobacilli isolated from women. The production of substantial amounts reproducibly was dependent on the growth of the organisms in acid media (pH less than or equal to 6.0) under anaerobic or micro-aerophilic conditions with continuous agitation. The addition to the media of the enzyme inhibitor, 3-amino-1,2,4-triazole, with or without catalase sometimes induced the production of H2O2 especially in non-agitated cultures. However, other agents such as concanavalin and o-dianisidine had no enhancing effect, and catalase or peroxidase alone completely inhibited H2O2 production. The H2O2 produced in the acid media was stable for more than a month at 5 degrees C but not in media at pH greater than or equal to 7.0. Of five strains of lactobacilli tested by the quantitative method and by a chromogenic qualitative method (Rogosa-catalase or -per-oxidase agar), three consistently produced H2O2 measurable by the former method, but none did so after growth of the organisms on Rogosa-catalase/peroxidase agar which suggested that the qualitative method was unreliable. The fact that H2O2 was produced in substantial quantities by some strains and not at all by others enabled H2O2-producers and non-producers to be distinguished easily.
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PMID:Comparison of quantitative and qualitative methods of detecting hydrogen peroxide produced by human vaginal strains of lactobacilli. 224 39

After ingestion of an unknown amount of a gun blueing compound containing selenious acid (11 ml from the bottle fluid were missing, equivalent to 2.9 g Se) a 2-year-old girl suffered from continuous hyper-salivation, vomiting, diarrhoea, restlessness and muscle spasm. Blood pressure and pulse rate were increased. Symptomatic treatment was performed by parenteral fluid administration. The plasma Se concentration was increased to 20 times normal 5 h after ingestion. Erythrocyte Se exceeded plasma Se, 24 h after intoxication. Urinary Se excretion decreased parallel to the plasma Se concentration. Ten weeks later, the Se content of hair had risen to 10 times normal. The plasma glutathione peroxidase activity showed only a slight increase during the first 36 h, erythrocyte glutathione peroxidase, catalase and superoxide dismutase activities were not significantly altered. The child fully recovered.
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PMID:Acute selenium poisoning of a 2-year-old child. 359 54

The characteristics of an unclassified Mycobacterium sp. isolated from three patients with Crohn's disease are presented. The organism is extremely fastidious and mycobactin dependent and may require up to 18 months of incubation for primary isolation. Colony morphology is rough. Characteristics are unlike those of any presently defined species. The isolates produced postive niacin, catalase, and 2-week arylsulfatase reactions and were susceptible to neotetrazolium chloride (1:40,000), streptomycin (2 micrograms/ml), and rifampin (0.25 micrograms/ml). Chromogenicity, nitrate reduction, quantitative catalase, Tween hydrolysis, urease, tellurite reduction, pyrazinamidase, and 3-day arylsulfatase tests were negative, and the isolates were resistant to thiophene-2-carboxylic acid hydrazide (10 micrograms/ml) and isoniazid (10 micrograms/ml). Optimum growth in broth was determined to be in 7H9 medium with Dubos oleic albumin complex, Tween 80, and mycobactin J at 37 degrees C without CO2 or agitation and in low medium depth. This Mycobacterium sp. may be a subspecies or biovariant of Mycobacterium paratuberculosis, or it may represent a new species of Mycobacterium. It is suggested that this Mycobacterium sp. may play an etiological role in some cases of Crohn's disease.
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PMID:Characteristics of an unclassified Mycobacterium species isolated from patients with Crohn's disease. 651 78

Bioskin is a natural polymer produced by Acetobacter xylinum and several yeasts in culture. It contains glucosamine and N-acetyl galactosamine which promote ionic adsorption of catalase at the adequate pH value. High values of ionic strength are required to enzyme desorption. Adsorption of catalase on bioskin fibers has been visualized by scanning electron microscopy associated to a dispersion X-ray analyzer. At low enzyme density, the affinity of the immobilized catalase for hydrogen peroxide was 30% lower than that of the free enzyme. This affinity decreased dramatically at higher density of immobilized enzyme and could not be increased by agitation of the enzyme reaction mixture. Immobilized catalase retains about 70% of its initial activity after 16 d storage, whereas soluble enzyme is completely inactivated after 3 d at room temperature. The haeme group of catalase is not protected after immobilization since it is accessible to both EDTA and phloroglucinol, chelating agents which inactivate catalase by removing the iron atom from the haeme group.
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PMID:Ionic adsorption of catalase on bioskin: kinetic and ultrastructural studies. 776 25

Hydrogen peroxide (H2O2) is a well-established cytotoxic agent released by activated neutrophils into the extracellular environment. However, a maximum of only 5 microM H2O2 was detected in the medium when 10(6) neutrophils/ml were activated with opsonized zymosan (OZ), more than 50-fold lower than the concentration of exogenous H2O2 required to produce equivalent killing of a cell line. In addition PMA-activated neutrophils were noncytotoxic, despite the capacity of PMA to generate two- to fourfold as much H2O2 for five times longer. The basis for this discrepancy was explored. NaN3 increased cytotoxicity to >90% only when neutrophils were activated with OZ due in part to inhibition of myeloperoxidase-mediated hydrolysis of H2O2, while catalase completely prevented cytotoxicity of OZ-activated neutrophils. These results indicate that H2O2 was solely responsible for the observed cytotoxicity. OZ-mediated cytotoxicity was prevented by intermittent agitation of the cultures or by the addition of soluble complement receptor type 1, suggesting that a physical association between neutrophils and target cells mediated by OZ was required to generate a cytotoxic environment. Significant numbers of neutrophil-target cell aggregates were observed by microscopic examination only under low hydrodynamic shear conditions. We conclude that the cytotoxic potency of H2O2 produced by neutrophils activated with OZ was due to a localized high concentration of H2O2 to which the target cells were exposed as a result of their labile adherence to OZ. This phenomenon may reflect a mechanism that neutrophils have acquired for maximizing the antimicrobial power of extracellular oxidants toward microbes that escape phagocytotosis.
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PMID:Bridging of neutrophils to target cells by opsonized zymosan enhances the cytotoxicity of neutrophil-produced H2O2. 927 40

The practice of exposing liquid cultures of the white-rot fungus Phanerochaete chrysosporium to a pure oxygen atmosphere under conditions of nutrient starvation has been widely adopted to induce lignin peroxidase (LiP) synthesis. Transmission electron microscopy was used to examine hyphal cells of carbon-limited cultures that had been exposed to an atmosphere of pure oxygen, and revealed evidence of a major loss in organization of cellular ultrastructure, which may be attributed to oxygen toxicity. Under some conditions (continuous agitation in air with cellulose as the carbon source) cultures will produce LiP without needing to be exposed to a pure oxygen atmosphere. A similar major loss of cellular ultrastructure was found in hyphal cells from such cultures upon examination. Investigation of the levels of H2O2, catalase and carbonyl content of intracellular proteins suggests that the latter cultures developed a hyperoxidant state because the rate of supply of carbon from cellulose hydrolysis was insufficient for oxygen homeostasis. The association of LiP with these cultures and with those exposed to an atmosphere of pure oxygen infers that LiP may be triggered in response to oxidant stress.
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PMID:Disordered ultrastructure in lignin-peroxidase-secreting hyphae of the white-rot fungus Phanerochaete chrysosporium. 1074 80

Alcohol oxidase from Pichia pastoris together with catalase from bovine liver was used to oxidize n-hexanol to hexanal. For this purpose, an aqueous buffer solution was mixed with large amounts of hexanol by simple agitation, yielding a biphasic system, or by adding the nonionic surfactant Brij 35. Initial velocities and reaction yields after 24 h were measured as a function of various parameters such as the amounts of enzymes, hexanol, or surfactant. High enzymatic activity was determined for hexanol concentrations of between 20 mass% and 80 mass% without using any additional organic solvent. The homogenization of the biphasic systems with the help of Brij 35 did not yield a significant improvement of the bioconversion, which would justify the use of surfactants.
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PMID:Biooxidation of n-hexanol by alcohol oxidase and catalase in biphasic and micellar systems without solvent. 1243 78

Pichia angusta MTCC-225, a catalase-positive yeast that utilizes methanol and lighter hydrocarbons, is the subject of this investigation. An orthogonal experimental design L16 was used to investigate the effects of methanol, a gas mixture, zero air, temperature, agitation, and salts solution on hydrocarbon utilizing P. angusta. QUALITEK-4 Software was used for automatic design and analysis of the experimental results. Among the various parameters tested, agitation contributed the highest influence (56.5%). Zero air, methanol concentration, and gas mixture showed a moderate influence on the growth of P. angusta. Methanol concentration and gas mixture showed a 10.91 and 10.12% influence, respectively, on yeast growth. Zero air played an important role, with a 15.19% influence on the utilization of hydrocarbon.
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PMID:Effect of hydrocarbons and other parameters on hydrocarbon-utilizing Pichia angusta MTCC-225. 1614 65

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