EC:1.9.3.1 - FACTA Search

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Query: EC:1.9.3.1 (cytochrome oxidase)
8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An improved procedure for the preparation of cobalt-cytochrome c has been developed. Various factors influencing the cobalt insertion process are discussed. The optical spectra of cobalt-cytochrome c suggest a six-coordinated species. The spectral shifts occurring with oxidation-reduction are compared with those observed for deoxy-cobaltohemoglobin and ferrocytochrome c and attributed to the effect of d(z2) electron on stereoelectronic interactions between the axial ligands and the porphyrin pi systems. Cobalt-cytochrome c has Em,7 = -140 +/- 20 mV as compared to an Em,7 of +250mV for ferrocytochrome c. An explanation for this negative Em,7 is offered. Cobaltocytochrome c is oxidized by cytochrome oxidase at about 45% of the rate for native cytochrome c. On the other hand cobalticytochrome c was not reduced by microsomal NADH or NADPH cytochrome c reductase nor by mitochondrial NADH or succinate cytochrome c reductase. It appears that the integrity of the reductase binding site is destroyed and the oxidase binding site has been modified by cobalt substitution.
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PMID:Cobalt-cytochrome c. I. Preparation, properties, and enzymic activity. 16 80

The effects of hydroxycobalamin on inhibition of the isolated cytochrome c oxidase (EC 1.9.3.1) by cyanide were studied. No effect of hydroxycobalamin (HCo) and cyanocobalamin (CNCo) was observed on isolated cytochrome c oxidase. When cytochrome c oxidase inhibited by cyanide was treated with HCo the reversal of inhibition could be observed through the spectrum of cytochrome c oxidase without reversal of activity; CNCo had no effect. The treatment of cyano-cytochrome c oxidase with HCo suggests that there is the formation of cobalamin-cytochrome c oxidase complex plus CNCo, and it is possible that complex formation would be between the cobalt of cobalamin and proteic part of cytochrome c oxidase.
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PMID:Effect of hydroxycobalamin on the inhibition of cytochrome c oxidase by cyanide. II - In isolated cytochrome C oxidase. 18 May 78

Production of an epileptogenic focus by cobalt-gelatin implantation in the cerebral cortex of the rat determines a local increase of cytochrome oxidase activity in neurones and probably a decrease of its activity in neuroglia. This variation of oxidative metabolism is not characteristic of the "epileptic neuron" since it takes also place after non irritative lesions, though remaining less conspicuous and less extensive.
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PMID:[The activity of cytochrome oxidase in the normal cerebral cortex and after destructive and irritating lesions. Histochemical research]. 23 Aug 72

Between pH approximately 4 and 10 cobaltocytochrome c (Cocyt-c) gives an electron paramagnetic resonance (EPR) spectrum with g parallel = 2.035, g the perpendicular = 2.223, CoA PARALLEL = 61.4 G, CoA the perpendicular = 49.8 G, NA parallel = 15.3 G, and NA THE PERPENDICULAR = 12.5 G. Comparisons with the EPR spectra of deoxycobaltomyoglobin, deoxycobaltohemoglobin, and model compounds and together with other evidence showed cobaltocytochrome c to have Met-80 and His-18 as its axial ligands. The protons of these ligands are seen as resonances shifted by the ring-current field of the porphyrin in the 300-MHZ 1H nuclear magnetic resonance (NMR) spectra of cobalticytochrome c (Cocyt-c+). The methyl and gamma-methylene protons of Met-80 in this molecule occupy positions with respect to heme c which are somewhat different from those in ferrocytochrome c. The 1H NMR spectra also showed that the methyl groups of Leu-32, Ile-75, Thr-63, thioether bridges, and the porphyrin ring in the cobalt protein are in the same state as in native enzyme; the same is also true for Tyr-59, His-26, and His-33 and also possibly Tyr-67, Tyr-74, and Phe-82. Above pH 11, Cocyt-c is converted to a five-coordinated form having g parallel = 2.026, g the perpendicular = 2.325, CoA parallel = 80 G, CoA the perpendicular approximately 10 G, NA parallel = 17.5 G, and NA the perpendicular not resolved. Below pH 1.0 the EPR spectrum of Cocyt-c is also five-coordinated with g parallel = 2.014, g the perpendicular = 2.359, CoA parallel = 93.8 G, and CoA the perpendicular = 38.8 G. The axial ligands in the alkaline and the acidic forms of Cocyt-c are His-18 and Met-80, respectively. New prominent proton resonance peaks are observed in cobalt-cytochrome c which are either absent or weak in native cytochrome c. These are situated at 3.0, 1.7, and 1.44 ppm, attributable, respectively, to the epsilon-CH2, DELTA-CH2 + beta-CH2, and gamma-CH2 of lysyl residues in random-coil-peptides. From the areas of these peaks, it is estimated that one-two lysyl residues in Cocyt-c have been modified; four-five lysyl residues in Cocyt-c+ have been modified. These alterations of surface charged groups are probably responsible for the lowered reactivity of Cocyt-c with cytochrome oxidase and the lack of reactivity of Cocyt-c+ with several cytochrome reductase systems.
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PMID:Cobalt-cytochrome c. II. Magnetic resonance spectra and conformational transitions. 24 Mar 81

The measurement of the density of the reaction product produced by the histochemical demonstration of cytochrome oxidase activity provides a method for the visual identification of physiologically active enteric neurons. The current study utilized the cytochrome oxidase technique in order to evaluate the metabolic history of neurons in different regions of the bowel and in chemically identified types of neuron. In addition, the effect of drugs or neurotoxins commonly used in the immunocytochemical identification of enteric neuronal phenotypes was also analyzed. Cytochrome oxidase activity was visualized with a blue-black reaction product resulting from the cobalt-intensified oxidation of 3,3'-diaminobenzidine. Peptides or 5-hydroxytryptamine (5-HT) were localized with biotinylated secondary antibodies and alkaline phosphatase-labeled avidin. Bound avidin or endogenous alkaline phosphatase was visualized with a red reaction product in the presence or absence, respectively, of levamisole. Use of measured without interference from a simultaneously demonstrated histo- or immunochemical marker. A multi-peptidergic class of cholinergic submucosal secretomotor neuron containing neuropeptide Y (NPY) and calcitonin gene related peptide (CGRP) immunoreactivities was found to be less metabolically active than the average of all submucosal neurons. In contrast, a non-cholinergic submucosal secretomotor neuron containing dynorphin (which is also known to contain vasoactive intestinal peptide) immunoreactivity was more metabolically active than submucosal neurons that do not contain this peptide. On average, submucosal neurons were more metabolically active than those of the myenteric plexus, and levels of metabolic activity in the myenteric plexus were found to be higher in the duodenum and the cecum than in the jejunum-ileum or colon. Myenteric neurons characterized by CGRP or NPY immunoreactivities or by endogenous alkaline phosphatase activity, were all less metabolically active than the average of all neurons in myenteric ganglia. Colchicine, which stimulates intestinal motility, was observed to increase cytochrome oxidase activity in enteric neurons, suggesting that an effect on the enteric nervous system contributes to its action on the bowel. The neurotoxins, 6-hydroxydopamine and 5,7-dihydroxytryptamine (5,7-DHT) were each found to stimulate neuronal metabolic activity. 5,7-DHT appeared to activate excitatory subtypes of 5-HT receptor since its effects were blocked or mimicked by compounds that act as antagonists or agonists, respectively, at these receptors.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evaluation of the activity of chemically identified enteric neurons through the histochemical demonstration of cytochrome oxidase. 170 53

Aerobic growth of Saccharomyces cerevisiae in the presence of CuSO4 (between 0.1 and 1 mM) caused a generalized induction of major enzyme activities involved in 'housekeeping' routes of oxygen metabolism (cytochrome oxidase, glutathione peroxidases and catalase) which were comparable to or higher than that observed with Cu,Zn-superoxide dismutase. Fumarase and glutathione transferase, tested as controls for oxygen-unrelated activities, were found to decrease under the same conditions. In the absence of oxygen, copper addition to yeast resulted in significant increases of Cu,Zn-superoxide dismutase and glutathione peroxidases and a slight increase of cytochrome oxidase, with catalase remaining undetectable irrespective of whether or not copper was present. Other metal ions tested (Mn2+, Co2+) were unable to produce such effects. It is concluded that copper has a general inducing effect on enzymes related to metabolism of oxygen and oxygen derivatives, which is mediated neither by formation of O2-. and H2O2 nor by interaction with copper-specific apoproteins. These results point to a general role of copper as regulator of the expression of major enzyme activities involved in biological oxygen activation.
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PMID:Oxygen-independent induction of enzyme activities related to oxygen metabolism in yeast by copper. 283 94

An analysis of the effect of electrostatic properties of 4-carboxy-2,6-dinitrophenyllysine (CDNP-lysine) cytochromes c on their reactions with strongly and weakly binding redox partners is given. For strongly binding systems (cytochrome-c oxidase, cytochrome-c reductase, sulphite oxidase and yeast cytochrome-c peroxidase) the magnitude of the dipole moments of the CDNP cytochromes c determines their relative reactivities. For weakly binding redox agents, such as hexacyanoferrate(III), cobalt(III)tris(1,10-phenanthroline), azurin and plastocyanin, the electrostatic potential at the haem edge accounts for the greater part of the relative activities. Relative rate data were obtained from the literature. It is concluded that the dipole moment of native cytochromes c may account for an approx. 50-fold increase in the efficiency of its physiological activity towards membrane-bound enzymes. A correction on a formula to describe the contribution of a molecular dipole moment to the ionic strength dependence of a bimolecular rate constant (Koppenol, W. H. (1980) Biophys. J. 29, 493-508) leads to an equation nearly identical to that obtained by Van Leeuwen et al. (Van Leeuwen, J.W., Mofers, F.J.M. and Verrman, E.C.I. (1981) Biochim. Biophys. Acta 635, 434-439).
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PMID:Electrostatic interactions of 4-carboxy-2,6-dinitrophenyllysine-modified cytochromes c with physiological and non-physiological redox partners. 284 52

The steady-state kinetics of Pseudomonas aeruginosa cytochrome oxidase were studied. Reduced cytochrome c551 and azurin from the same bacteria were used as the electron-donating substrates, while dioxygen served as the electron acceptor. Oxidized cytochrome c551 and azurin exhibited product inhibition of the reaction. However, apo-azurin and azurin derivatives in which the copper was substituted by the redox-inert ions Ni2+, Co2+, Cd2+ and Zn2+, did not show any effect on the kinetics. These observations implied that complex formation between the substrates or the products and the enzyme is not a rate-limiting step and is not the cause for product inhibition. The integrated rate law for a reaction scheme in which we assumed that complex formation was not rate limiting was fitted to the complete reaction traces. The results suggested that it is the low thermodynamic driving force, expressed in the small differences in redox potential between the substrates and heme c of the enzyme, which cause the observed product inhibition.
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PMID:Pseudomonas aeruginosa cytochrome oxidase. Product inhibition by low thermodynamic driving force. 302 48

The pathophysiology, clinical features, and management of cyanide toxicity are reviewed and sources of cyanide are listed. Cyanide is a deadly poison that is found in many foods and household and industrial products, including some that are readily available. Cyanide binds with cytochrome oxidase, the enzyme responsible for oxidative phosphorylation, and paralyzes cellular respiration. Because the tissues cannot use oxygen that is delivered, aerobic metabolism ceases. The signs and symptoms of cyanide poisoning reflect the extent of cellular hypoxia. Manifestations may include respiratory abnormalities (progressing from tachypnea and dyspnea to respiratory depression and apnea), hemodynamic instability, metabolic acidosis, and, possibly, local irritant effects after oral ingestion of cyanide. The mainstays of therapy are 100% oxygen and specific antidotes to cyanide. Sequential treatment with amyl nitrite by inhalation, intravenous sodium nitrite 3%, and intravenous sodium thiosulfate 25% is directed toward decreasing the amount of cyanide available for cellular binding. Nitrites convert hemoglobin to methemoglobin, which reacts with cyanide to form cyanomethemoglobin. Sodium thiosulfate serves as a source of sulfur groups, which are needed for conversion of cyanide to thiocyanate, a compound that is relatively less toxic and is excreted renally. Supportive care also is important. Cobalt EDTA, hydroxocobalamin, and aminophenols have also been used but are not considered standard treatments. Cyanide poisoning is a medical emergency that requires prompt recognition and immediate and aggressive treatment.
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PMID:Clinical features and management of cyanide poisoning. 353 Jun 15

1. Anaerobic conditions are normally necessary for incorporation of iron into haems and only ferrous iron is used. After addition of succinate to an incubation mixture containing intact or ultrasonically treated mitochondria, Fe(3+) is used, but only if no inhibitors prevent the transfer of electrons from the mitochondrial respiratory chain to oxygen. 2. A dual-wavelength spectrophotometric assay for ferrochelatase is described that has been used for the continuous assay of incorporation of metal ions into porphyrins. Constants are given for the determination of rates of formation of protohaem and cobalt protoporphyrin, mesohaem, cobalt mesoporphyrin and zinc mesoporphyrin. For cobalt mesoporphyrin formation the K(m) for Co(2+) is 11x10(-6)m and that for mesoporphyrin is 5x10(-6)m. 3. An improved method for the separation of inner and outer membranes of mitochondria is described. Mitochondria swollen in hypo-osmotic media were contracted in hyperosmotic potassium chloride solution containing ATP and the outer membranes detached by mild ultrasonic treatment. Sucrose inhibited the ATP-induced contraction and decreased the yield of outer membranes. 4. Ferrochelatase is associated with cytochrome oxidase, which is used as a marker for inner mitochondrial membranes. 5. By using as substrate porphyrin dissolved in phospholipid micelles, ferrochelatase activity of intact mitochondria was shown to be latent, and to be liberated by ultrasonic treatment. 6. No ferrochelatase was detectable in microsomes or soluble cell components.
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PMID:The structural organization of haem synthesis in rat liver mitochondria. 430 46

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