EC:1.11.1.7 - FACTA Search

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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Subcellular distribution study of cytoplasmic organelles was performed on human polymorphonuclear leukocytes after homogenization in 0.34 molar sucrose by differential centrifugation and sucrose density gradient centrifugation of the homogenate. The whole homogenate and each fraction was assayed for nitroblue tetrazolium (NBT)-reductase with and without 1 mM potassium cyanide, and the distribution of this enzyme was compared to the distribution of lysozyme, peroxidase, beta-glucuronidase, and acid and alkaline phosphatase. Enzyme recovery was 97 per cent and ranged between 74 and 124 per cent. Latent activity of all enzymes except NBT-reductase, acid, and alkaline phosphatase was demonstrated by observing a four- to sixfold increase in activity after the addition of Triton-X 100. Maximal relative specific activity using either DPNH or without cyanide for NBT-reductase was found in the 100,000 x g differential centrifugation fraction and was concentrated in the less dense top fraction of the sucrose density gradient. The distribution pattern was similar to acid and alkaline phosphatase. In contrast, the maximal concentration of beta-glucuronidase and peroxidase was found in the heavier 7,200 x g granule fraction and in the more dense bottom fractions of the sucrose density gradient. Maximal lysozyme activity was concentrated in the 30,000 x g granule fraction and in the fractions located between the heaviest and lightest fractions of the sucrose density gradient. The lack of latent activity and the similarity of subcellular distribution of NBT-reductase to acid and alkaline phosphatase, two enzymes associated with microsomes and plasmalemal membranes in human polymorphonuclear leukocytes (PMN), indicates that NBT-reductase is also a nonlysosomal enzyme located in microsomes or in plasmalemal membranes. These findings support the previously described histochemical observations that initial reduction of NBT to formazan occurs on the PMN plasmalemal surface membrane at the point of particle attachment. In addition, they suggest that alteration of the surface membrane of the PMN by particle attachment or other surface forces may activate NBT-reductase, leading to an accumulation of formazan in the region of the altered membrane as the phagocytic vacuole is formed.
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PMID:Subcellular distribution of nitroblue tetrazolium reductase (NBT-R) in human polymorphonuclear leukocytes (PMN). 118 38

The object of the study was the investigation of the occurrence and distribution of some oxidative enzymes in the sporocyst of Fasciola hepatica L. The samples were examined for the presence of cytochrome oxidase, peroxidase, NADH and NADPH tetrazolium reductases, as well as succinate, isocitrate, malate, lactate, alpha-glycerophosphate, glyceraldehyde-3-phosphate, glucose-6-phosphate, beta-hydroxybutyrate, L-glutamate and alcohol dehydrogenases. All of them save cytochrome oxidase were found to occur in the sporocyst. The presence and localization of these enzymes were examined by histochemical methods in various stages of development of the sporocyst. These investigations permitted it to be established that glycolytic processes are the principal way of release of energy for all developmental groups of this larva. Moreover, the functions of the tricarboxyl acid and pentose-phosphate cycles were detected and found to play a less important part in processes of energy production in the sporocyst. In addition, the functioning and metabolism of each larval organ in various stages of its development were discussed in so far as was possible on the basis of the analysis of the above-mentioned oxidative enzymes.
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PMID:Oxidative enzymes in the development of Fasciola hepatica L. III. The activities of oxidases and dehydrogenases in the sporocyst. 119 74

When plant tissue extracts are electrophoresed on polyacrylamide gels and the gels are stained for malate dehydrogenase by the standard NAD-dependent dehydrogenase reaction, terminating in the formation of reduced Nitroblue Tetrazolium (NBT), achromatic bands, in addition to the expected chromatic bands, are observed. The achromatic bands are seen when the staining conditions favor a generalized background staining of the gel and have been shown, in a previous study, to be caused by peroxidase isozymes [1]. The present study examined the mechanism by which peroxidase produced the achromatic bands using horseradish peroxidase (HRP). The generalized background staining resulted from the phenazine methosulfate (PMS)-mediated reduction of NBT. This reduction was enhanced by H2O2 and suppressed by HRP. Peroxidase apparently catalyzes the peroxidative oxidation of reduced PMS, which suppresses the generalized reduction of NBT in gel regions containing peroxidase isozymes producing the achromatic bands. In contrast, however, HRP also appears to catalyze the peroxidative oxidation of reduced NAD, but this reaction increases the reduction of NBT. The results are discussed in the context of the mechanisms proposed by others for the PMS-mediated reduction of NBT and for the peroxidase-catalyzed NADH-dependent formation of H2O2. This peroxidase-catalyzed reaction has been proposed for the plant peroxidases involved in lignification.
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PMID:An explanation of the achromatic bands produced by peroxidase isozymes in polyacrylamide electrophoresis gels stained for malate dehydrogenase. 137 53

Peroxidase in the presence of hydrogen peroxide catalyzes in vitro the activation of carcinogenic N,N-dimethyl-4-aminoazobenzene (DAB) to DNA-, tRNA- and homopolydeoxyribonucleotide-bound products. tRNA is the most susceptible to modification by the activated DAB. Binding of DAB products to macromolecules is inhibited by methyl viologen, nitrosobenzene, ascorbate, glutathione, NADH and MgCl2. The mechanism of these inhibitions was studied. The nuclease P1 version of the 32P-postlabeling assay was employed for detection and quantitation of some major DNA or tRNA adducts formed with DAB activated by a peroxidase system. tRNA modified by activated DAB shows a significantly increased acceptance for L-methionine.
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PMID:Formation and 32P-postlabeling of DNA and tRNA adducts derived from peroxidative activation of carcinogenic azo dye N,N-dimethyl-4-aminoazobenzene. 139 52

The gene encoding the streptococcal flavoprotein NADH oxidase (NOXase), which catalyzes the four-electron reduction of O2-->2H2O, has been cloned and sequenced from the genome of Streptococcus (Enterococcus) faecalis 10C1 (ATCC 11700). The deduced NOXase protein sequence corresponds to a molecular mass of 48.9 kDa and contains three previously sequenced cysteinyl peptides obtained with the purified enzyme. In Escherichia coli, the expressed nox gene produced a catalytically active product, which retained its immunoreactivity to affinity-purified NOXase antisera. Alignment of the NOXase protein sequence with that of streptococcal NADH peroxidase (NPXase) revealed that the proteins are 44% identical. Among the most highly conserved segments is a sequence containing Cys42; this residue is known to exist as a stabilized cysteine-sulfenic acid (Cys-SOH) in NPXase and serves as the non-flavin redox center. In addition, three previously identified NPXase segments, known to be involved in FAD and NAD(P)-binding in other pyridine nucleotide-linked flavoprotein oxidoreductases, are strongly conserved in NOXase. Overall, the extensive homology observed between NOXase and NPXase suggests that the monomer chain fold of the oxidase closely resembles that of the peroxidase. Both sequences share limited but significant homology to those of glutathione reductase and other members of the flavoprotein disulfide reductase family. These and other considerations suggest that these two unusual streptococcal flavoproteins constitute a distinct class of FAD-dependent oxidoreductases, the flavoprotein peroxide reductases, easily contrasted with enzymes such as glutathione reductase and thioredoxin reductase.
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PMID:Molecular cloning and analysis of the gene encoding the NADH oxidase from Streptococcus faecalis 10C1. Comparison with NADH peroxidase and the flavoprotein disulfide reductases. 140 82

A new spectrophotometric method for determining low hydrogen peroxide concentrations by using horseradish peroxidase in the presence of NADH at pH 7.5 has been described. Both total NADH consumption and initial reaction rate may be used for the determination. Using the NADH consumption, a linear response with respect to hydrogen peroxide was observed in the concentration range 7 x 10(-8)-2.5 x 10(-6) M. Due to the presence of superoxide dismutase, hydrogen peroxide is partly regenerated and an amplification of the signal results, which explains the sensitivity.
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PMID:An enzymatic determination of hydrogen peroxide by using spectrophotometry. 142 21

The susceptibility of Capnocytophaga ochracea, Eikenella corrodens, Eubacterium yurii, Fusobacterium nucleatum, Peptostreptococcus micros, Prevotella intermedia, Selenomonas sputigena, Wolinella recta to hypothiocyanite (OSCN-) produced by the lactoperoxidase system was tested. Results showed a decrease of bacterial survival rate after OSCN- exposure, with an intra- and inter-species variability from 0 to 95% for C. ochracea, 34-100% for E. corrodens, 0-83% for E. yurii, 1-15% for F. nucleatum, 8-61% for P. micros, 0-100% for P. intermedia, 0-44% for S. sputigena and 0-8% for W. recta. The survival rate did not correlate with the NADH/OSCN- oxidoreductase activity present in the lysed bacteria (r = -0.3248; N = 15; NS).
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PMID:Susceptibility of anaerobic microorganisms to hypothiocyanite produced by lactoperoxidase. 148 64

The oscillatory peroxidase-oxidase reaction has been investigated by using NADH deuterated in the nicotinamide 4-A position. A considerable kinetic hydrogen/deuterium isotope effect on the oscillatory behavior was revealed, which may provide an additional valuable tool for mechanistic studies and for discriminating between various mechanistic models of the peroxidase-oxidase reaction. Particularly, this effect manifests in different oscillation frequencies. A sequence of simple and aperiodic oscillations was found between two stable steady states.
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PMID:Hydrogen/deuterium isotope effect in the oscillating peroxidase-oxidase reaction. 149 51

Rhodobacter capsulatus J1 has two hydroperoxidases: a catalase-peroxidase and a peroxidase. A mutant strain, AH18, that had no catalase-peroxidase was isolated. The growth rate under aerobic and photosynthetic conditions, respiration, superoxide dismutase and peroxidase activities, and pigment content of the mutant were similar to those of the wild type. AH18 was more susceptible to killing and to inhibition of nitrogenase by H2O2 but not by molecular oxygen. The incidences of spontaneous mutations were similar in both strains. Viable counts in aerobic but not anaerobic cultures of AH18 started to decline as soon as the cultures reached the stationary phase, and the rate of cell death was much higher in AH18 than in the wild type. It is inferred that the peroxidase provides protection against H2O2 in log-phase cells and that the catalase-peroxidase provides protection under the oxidative conditions that prevail in aging cultures. This protective function might be related to the dual activity of the latter as a catalase and a peroxidase or to its capacity to oxidize NADH, NADPH, and cytochrome c.
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PMID:Physiological functions of hydroperoxidases in Rhodobacter capsulatus. 157 3

Hydrogen peroxide (H2O2), which is required for thyroid hormone synthesis, has been believed to be produced at the apical cell surface of thyroid follicular cells. However, we recently found that plasma membrane from porcine thyroid exclusively generated superoxide anion (O2-) by employing a novel method for simultaneous determination of H2O2 and O2- with diacetyldeuterioheme-substituted horseradish peroxidase (diacetyl-HRP) as the trapping reagent [Nakamura, Y., Ohtaki, S., Makino, R., Tanaka, T., & Ishimura, Y. (1989) J. Biol. Chem. 264, 4759-4761]. The present study describes the mechanism of H2O2 production as analyzed by this new method. Incubation of cultured porcine follicular cells with ionomycin, a Ca-ionophore, caused an increase in oxygen uptake of about 80%. During enhanced respiration, the cells released H2O2 in an amount equivalent to the amount of oxygen consumed as judged by the formation of compound II of diacetyl-HRP, and H2O2 adduct of the peroxidase. No formation of compound III of the peroxidase, an O2- adduct, was detected during burst respiration. Thus, the intact cells exclusively released H2O2 to the outside of the cells. On the other hand, when the cell fragments from follicular cells were incubated with NADPH or NADH in the presence of Ca2+, the production of O2- was observed only during NADPH-dependent burst respiration, supporting our previous results that the plasma membrane exhibited NADPH-dependent O2(-)-generating activity. O2- production by the plasma membrane was further confirmed by analyses of the effects of superoxide dismutase (SOD) and catalase on the reaction. These results suggested that H2O2 is secondarily produced through the dismutation of O2-.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of H2O2 production in porcine thyroid cells: evidence for intermediary formation of superoxide anion by NADPH-dependent H2O2-generating machinery. 164 82

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