Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Germination of some dormant seeds is promoted by solutions of thiourea, sodium nitrite, and hydroxylamine salts. The promotions are accompanied by irreversible inhibition of catalase (EC 1.11.1.6) in extracts from the seeds. The seeds are also promoted in germination by catechol and pyrogallol solutions. These effects are recorded for lettuce (Lactuca sativa L. cv. Grand Rapids) and pigweed (Amaranthus albus L.) seeds. The results indicae that metabolically derived hydrogen peroxide, spared from decomposition by catalase inhibition, oxidizes reduced NADPH required as the oxidant in the pentose pathway of glucose use. The metabolic system for such use of H2O2 involves the enzymes, peroxidase (EC 1.11.1.7) and pyridine nucleotide quinone oxidoreductase (EC 1.6.99.2), which are present in the dormant seed prior to imbibition of water.
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PMID:Breaking of seed dormancy by catalase inhibition. 23 26

The 95,000-dalton polypeptide in human red blood cell membranes constitutes about 25% of the membrane protein. Previous labeling studies have shown that different regions of this polypeptide are exposed to the inside and outside of the cell and have suggested a role for the protein in anion exchange across the membrane. This polypeptide has been fragmented by chymotrypsin digestion of intact red cells and by treatment of purified polypeptide with 2-nitro-5-thiocyanobenzoic acid, hydroxylamine, and N-bromosuccinimide. The sites of cleavage by each of these reagents have been located relative to the NH-2 and COOH-terminals of the intact 95,000-dalton polypeptide. Polypeptide obtained from cells labeled with 1-isothiocyanate-4-benzene [35S]sulfonic acid (an inhibitor of anion transport), 125I and lactoperoxidase, or 32P has been similarly fragmented and these labels have been assigned to specific regions of the polypeptide. There are at least two sites of phosphorylation of the polypeptide; the major sites lies within 10,000 daltons of the NH2-terminal requiring that this portion of the polypeptide lie inside the cell. Sites of chymotrypsin cleavage and 125I and lactoperoxidase labeling are in a 7,000-dalton region toward the COOH-terminal of the polypeptide; this region must lie outside the cell. Between these two regions the polypeptide must traverse the lipid bilayer an odd number of times. 1-Isothiocyanate-4-benzenesulfonic acid also labels the protein near the site of chymotrypsin cleavage.
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PMID:Fragmentation of the 95,000-dalton transmembrane polypeptide in human erythrocyte membranes. 95 79

Prostaglandin H synthase apoprotein, without its prosthetic heme group, was inactivated by N-acetylimidazole under conditions typical for the O-acetylation of tyrosyl residues. A spontaneous reactivation occurred above pH 7.5 at 22 degrees C, which indicated spontaneous hydrolysis of acetylated residues. Below pH 7.5, where stable inactivation was observed, reactivation was achieved by reaction with hydroxylamine. Both enzymic activities of prostaglandin H synthase, cyclooxygenase and peroxidase, were inactivated and reactivated simultaneously and to the same extent. In contrast to the apoprotein, the holoenzyme with heme was not inactivated by N-acetylimidazole. The number of acetyl groups, as determined as hydroxamate after the reaction with hydroxylamine at pH 8.2, was 2.5 +/- 0.4 for the apoprotein and 1.0 +/- 0.24 for the holoenzyme. The specific binding of heme as the prosthetic group was no longer observed by EPR (signals at g = 6.7 and 5.3) when hemin was added to the N-acetylimidazole-reacted apoprotein. Treatment of N-acetylimidazole-reacted apoprotein with hydroxylamine restored the specific binding of heme. The N-acetylimidazole-reacted apoprotein supplemented with hemin and reacted with hydroperoxides, neither showed electronic absorption spectra of higher oxidation states nor an EPR doublet signal due to a tyrosyl radical. These results demonstrate that heme protects against the inactivating modification by N-acetylimidazole and that this modification prevents binding of the prosthetic heme group necessary for both enzymic activities. The absence of the prosthetic heme group explains the concomitant loss of cyclooxygenase and peroxidase activities, as well as the absence of higher oxidation states and the tyrosyl radical. We suggest that the acetylation of a residue in the heme pocket, most probably a tyrosine, although a histidine cannot be definitely disproved, exerts the inhibiting effects. This residue could be the axial ligand of the heme or in close contact to the heme. The results also show that the inhibition by N-acetylimidazole does not involve the acetylation of Ser530 which causes the inhibition by acetylsalicylic acid of cyclooxygenase. [The numbering of amino acids in ovine prostaglandin H synthase is according to DeWitt, D. L. and Smith, W. L. (1988) Proc. Natl Acad. Sci. USA 85, 1412-1416 including a signal peptide of 24 residues which is missing in the processed protein.
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PMID:Chemical modification of prostaglandin endoperoxide synthase by N-acetylimidazole. Effect on enzymic activities and EPR spectroscopic properties. 131 75

An electron spin resonance (ESR) assay has been developed for peroxidase activity. The assay measures the formation of the paramagnetic nitroxide Tempol from the oxidation of its hydroxylamine derivative (TOLH) by short-lived radicals produced by peroxidase cycle intermediates, Compounds I and II. Using phenol as a peroxidase electron donor, the ESR approach is suitable for measurements of peroxidase activity ( > or = 0.003 U/ml) and micromolar quantities of H2O2 in sample sizes as small as 2 microliters. In addition, the ESR method can be used to continuously monitor activity in cell suspensions and other media that are susceptible to optical artifacts. The high membrane permeability of TOLH also makes it possible to estimate peroxidase activity in membrane-enclosed compartments, provided that TOLH oxidation rates can be stimulated with exogenous peroxidase reductants, e.g., phenol. Analysis of TOLH oxidation rates under conditions of low electron donor concentrations and high concentrations of H2O2 also shows clear indications of substrate-dependent inhibition and increased catalytic activity. Computer simulations indicate that the results obtained are consistent with the peroxidase reaction scheme proposed by Kohler et al. (1988, Arch. Biochem. Biophys. 264, 438-449) modified to correct for a nitroxide dependent stimulation of peroxidase catalytic activity.
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PMID:Electron spin resonance study of peroxidase activity and kinetics. 133 17

Activated neutrophils and monocytes were found to metabolize procainamide to a reactive hydroxylamine. In contrast, there was little or no metabolism by lymphocytes or platelets. Therefore, it appears that only leukocytes that contain myeloperoxidase can metabolize procainamide to a significant degree. There was no difference in the degree to which neutrophils from males or females metabolized procainamide; however, monocytes from males formed significantly more hydroxylamine than did monocytes from females. By use of radiolabeled procainamide, covalent binding of procainamide to leukocytes was detected, and the degree of binding correlated with the cells' ability to oxidize procainamide. These findings suggest that myeloperoxidase is the major enzyme involved in the formation of reactive metabolites by leukocytes, a pathway that we propose may be responsible for procainamide-induced lupus and agranulocytosis.
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PMID:Comparative metabolism and covalent binding of procainamide by human leukocytes. 134 86

The growth and production of hydrolytic enzymes such as alpha-amylase, esterase and peroxidase as influenced by the type of media, carbon and nitrogen sources and C:N ratio were monitored in Nocardia asteroides at 37 degrees C. Sabouraud dextrose and the synthetic media yielded maximum growth compared with tryptic soy broth. Among the carbon sources (dextrose, fructose, sucrose, maltose, starch and citrate), monosaccharides supported maximum growth and induced higher alpha-amylase activity but repressed the peroxidase activity. On the other hand, the disaccharides and starch produced less growth but induced maximum esterase and peroxidase activities. Glutamate among the nitrogen sources (nitrate, nitrite, ammonium, hydroxylamine, glutamate and casein) supported maximum growth. Glutamate, nitrate and casein induced alpha-amylase and esterase activities but suppressed peroxidase activity. Nitrite, ammonium and hydroxylamine stimulated peroxidase activity to the maximum but repressed alpha-amylase and esterase activities. Low, medium and high C:N ratios induced maximum peroxidase, esterase and alpha-amylase activities, respectively.
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PMID:Influence of nutritional factors on growth and hydrolytic enzyme production in Nocardia asteroides. 135 30

Treatment of prostaglandin endoperoxide (PGH) synthase apoprotein with a 100- or 1000-fold excess of N-acetylimidazole (NAI) led to time-dependent inactivation of both cyclooxygenase and peroxide activities. Reconstitution of apoprotein with heme prior to incubation with NAI substantially protected the enzyme from inactivation. Pretreatment of the protein with either acetylsalicylic acid (aspirin) or (+/-)-2-fluoro-alpha-methyl-4-biphenylacetic acid (flurbiprofen), which inhibit cyclooxygenase activity, did not alter the time course of peroxidase inactivation by NAI. Treatment of NAI-inactivated apoPGH synthase with hydroxylamine led to substantial regeneration of both cyclooxygenase and peroxidase activities. Quantitation of radioactivity following incubation of PGH synthase with [3H-acetyl]NAI indicated incorporation of 1.7 +/- 0.9 acetyl groups/70-kDa subunit. Cleavage of acetylated protein with trypsin under nondenaturing conditions followed by high-performance liquid chromatography analysis demonstrated that most of the radioactivity was incorporated into the 33-kDa fragment although significant radioactivity was also detectable in the 38-kDa fragment. Chymotryptic peptide mapping of acetylated protein revealed numerous potential sites of acetylation distributed in widely divergent regions of the protein. No apparent differences were observed between the chymotryptic maps of apo- and holoenzyme, suggesting that the adduct responsible for loss of catalytic activity is unstable to the chromatographic conditions. The different biochemical properties of PGH synthase acetylated by NAI or aspirin suggest that a major determinant of the specificity of aspirin for Ser530 is binding of the salicylate moiety to this region of the PGH synthase protein.
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PMID:Acetylation of prostaglandin endoperoxide synthase by N-acetylimidazole: comparison to acetylation by aspirin. 139 Jul 34

Free radicals produce a wide spectrum of damages; among these are DNA base damages and abasic (AP) sites. Although several methods have been used to detect and quantify AP sites, they either are relatively laborious or require the use of radioactivity. A novel reagent for detecting abasic sites in DNA was prepared by reacting O-(carboxymethyl)hydroxylamine with biotin hydrazide in the presence of carbodiimide. This reagent, called Aldehyde Reactive Probe (ARP), specifically tagged AP sites in DNA with biotin residues. The number of biotin-tagged AP sites was then determined colorimetrically by an ELISA-like assay using avidin/biotin complex conjugated to horseradish peroxidase as the indicator enzyme. With heat/acid-depurinated calf thymus or bacteriophage f1 DNA, ARP detected femtomoles of AP sites in DNA. Using this assay, DNA damages generated in calf thymus, phi X174 RF, and f1 single-stranded DNA, X-irradiated in phosphate buffer, were easily detectable at 10 rad (0.1 Gy). Furthermore, ARP sites were detectable in DNA isolated from heat-inactivated X-irradiated (10 Gy) and methyl methanesulfonate (MMS)-treated (5 microM) Escherichia coli cells. The rate of production of ARP sites was proportional to the X-ray dose as well as to the concentration of MMS. Thus, the sensitivity and simplicity of the ARP assay should provide a potentially powerful method for the quantitation of AP sites or other DNA lesions containing an aldehyde group.
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PMID:A novel, sensitive, and specific assay for abasic sites, the most commonly produced DNA lesion. 156 24

Horseradish peroxidase (HRP), when incubated with diethylpyrocarbonate (DEPC), shows a time-dependent loss of iodide oxidation activity. The inactivation follows pseudo-first order kinetics with a second order rate constant of 0.43 min-1 M-1 at 30 degrees C and is reversed by neutralized hydroxylamine. The difference absorption spectrum of the modified versus native enzyme shows a peak at 244 nm, characteristic of N-carbethoxyhistidine, which is diminished by treatment with hydroxylamine. Correlation between the stoichiometry of histidine modification and the extent of inactivation indicates that out of 2 histidine residues modified, one is responsible for inactivation. A plot of the log of the reciprocal half-time of inactivation against log DEPC concentration further suggests that only 1 histidine is involved in catalysis. The rate of inactivation shows a pH dependence with an inflection point at 6.2, indicating histidine derivatization by DEPC. Inactivation due to modification of tyrosine, lysine, or cysteine has been excluded. CD studies reveal no significant change in the protein or heme conformation following DEPC modification. We suggest that a unique histidine residue is required for maximal catalytic activity of HRP for iodide oxidation.
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PMID:Chemical and kinetic evidence for an essential histidine in horseradish peroxidase for iodide oxidation. 157 15

A long-term side effect of therapy with a variety of drugs is a syndrome resembling the idiopathic autoimmune disease, systemic lupus erythematosus. Essentially all patients with drug-induced lupus display autoantibodies to nuclear histone components whose specificity appears to be related to the higher order structure of histones existing in chromatin. IgG antibodies to H1 and the (H2A-H2B)-DNA complex were observed in most patients with lupus induced by procainamide, hydralazine, and quinidine, whereas the H3-H4 tetramer, comprising half the mass of the nucleosome core particle, was largely nonantigenic. IgM antibodies to (H2A-H2B)-containing chromatin subunits were common also. IgM reactivity was observed with the DNA-free H3-H4 tetramer and with H1, especially in hydralazine-induced lupus. These results suggest that IgM antihistone antibodies may result from autoimmunization with a nonnative form of chromatin, whereas IgG antibodies may be selected for reactivity with H1 and a native form of the (H2A-H2B)-DNA subunit of the nucleosome. The chemical basis for induction of autoimmunity by drugs is unclear because lupus-inducing drugs do not have a common structural feature or biological activity nor are they capable of specific reactions with histones, the principal target antigen. However, in the presence of activated neutrophils, procainamide is transformed metabolically to the cytotoxic procainamide-hydroxylamine. Mixing experiments and cell-free studies demonstrated that procainamide was cooxidized with H2O2 by myeloperoxidase released when neutrophils undergo the respiratory burst and degranulation reactions. Preliminary results indicate other lupus-inducing drugs are also biotransformed by this mechanism suggesting that a common denominator linking these drugs may be the capacity to be oxidized to reactive metabolites by the action of activated phagocytic cells.
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PMID:Autoantibody specificity in drug-induced lupus and neutrophil-mediated metabolism of lupus-inducing drugs. 163 38


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