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)

Protein and lipid analyses were conducted on isolated erythrocyte and lymphocyte plasma membranes from 7-wk-old male C57BL copper-deficient and copper-supplemented mice to investigate mechanisms for the altered immunity that accompanies dietary copper deficiency. Beginning at parturition, dams were fed a diet low in copper (0.5 mg/kg) and the offspring were weaned to this diet. Half the dams and their respective offspring received supplemental copper (20 mg/L) in the drinking water (+Cu) and served as controls. Unsupplemented offspring (-Cu) had lower activity of cuproenzymes serum ceruloplasmin, spleen and thymus cytochrome-c oxidase and copper, zinc-superoxide dismutase. The -Cu mice exhibited anemia, splenomegaly and thymic atrophy. Based on the marker enzyme alkaline phosphodiesterase I (APDE-I), lymphocyte plasma membranes were enriched 7- to 10-fold for spleen and thymus, respectively, after discontinuous sucrose density centrifugation. The activity of APDE-I was higher in spleen and thymus samples from -Cu mice than from those of +Cu mice for both crude homogenates and purified plasma membranes. Proteins were fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by silver staining. A yellow-appearing band, Mr 74,000, present in all splenic membrane samples from +Cu mice was not evident in the samples from -Cu mice. Fatty acid methyl esters (FAME) were quantified by gas chromatography. Compared to splenic membranes from +Cu mice, the samples from -Cu mice demonstrated significant changes in all FAME (lower 16:0, 18:0 and 20:3n-6 and higher 18:1n-9, 18:2n-6 and 20:4n-6), including a higher unsaturation index. FAME composition of erythrocyte ghosts from -Cu mice demonstrated similar changes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dietary copper deficiency alters protein and lipid composition of murine lymphocyte plasma membranes. 359 18

A comprehensive survey of the interaction of the copper proteins and oxygen is presented including a correlation of structure, function, and other properties of the known copper oxidases and of hemocyanin. The origin of their blue color and the structure of copper complexes and copper proteins are related to the oxidation state of copper ion and relevant electronic transitions probably arising from the formation of charge transfer complexes. The oxygen reactions of hemocyanin, ceruloplasmin, and cytochrome oxidase show half-saturation values far below the other Cu enzymes. The formation of hydrogen peroxide as a reaction product is associated with the presence of one Cu atom per oxidase molecule or catalytic system. Water is the corresponding product of the other Cu oxidases with four or more Cu atoms per molecule, except for monoamine oxidase. Mechanisms for the oxidase action of the two and four electron transfer Cu oxidases and tyrosinase are proposed. These reactions account for the number, the oxidation-reduction potential, and the oxidation state of Cu in the resting enzyme, the cyclical change from Cu(II) to Cu(I), the diatomic nature of O(2), the sequence of the oxidation and reduction reactions, and other salient features. The catalytic reactions involved in the oxidation of ascorbic acid by plant ascorbate oxidase, ceruloplasmin, and Cu(II) are compared. Finally the substrate specificity, inhibitory control, and the detailed mechanism of the oxidase activity of ceruloplasmin are summarized.
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PMID:Copper proteins and oxygen. Correlations between structure and function of the copper oxidases. 428 28

The hypothesis is advanced that ceruloplasmin functions in enzymatic transfer of copper to copper-containing enzymes, such as cytochrome oxidase. To test this hypothesis, leucocytes from Wilson's disease patients, heterozygous carriers, and normal subjects were assayed for cytochrome-oxidase activity. The data reported here show markedly reduced levels of activity in Wilson's disease cases and moderate reductions in heterozygous individuals relative to normal controls. These observations and a close correlation between the level of cytochrome-oxidase activity in the leucocytes and ceruloplasmin in the serum tend to support the hypothesis.
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PMID:Cytochrome oxidase deficiency in Wilson's disease: a suggested ceruloplasmin function. 430 98

The dietary antagonism between copper and molybdate salts prompted a study of the inhibition of copper enzymes by thiomolybdate (TM). TM strongly inhibited the oxidase activity of five copper oxidase with I50% values in the 1-5 microM range. The mechanism of the TM effect on the copper oxidase, ceruloplasmin (Cp) (E.C. 1.16.3.1), was studied in detail. In Vmax vs. E plots, TM gave parallel data suggesting irreversibility but a large number of TM molecules per Cp were required. The inhibition of Cp by TM could not be reversed by dialysis. Isolation of TM-inhibited Cp on Sephadex G-10 did not yield any active Cp molecules. Cu(II) did not restore any inhibited oxidase activity. Gel electrophoresis supported the covalent binding of Cp by TM without any extensive change in protein structure. EPR results confirmed that Cu(II) is reduced to Cu(I) after reaction with TM. However, the Mo(VI) in MoS4(2-) did not change in oxidation number. Analysis of the TM-Cp compound accounted for all six Cu atoms as found in native Cp. The data suggest the covalent binding of sulfide to Cp copper. TM also inhibited the activity of ascorbate oxidase, cytochrome oxidase, superoxide dismutase, and tyrosinase. However, no inhibition of carbonic anhydrase, a zinc enzyme, was observed at 1 mM TM.
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PMID:Inhibition of ceruloplasmin and other copper oxidases by thiomolybdate. 609 47

The secondary structure of the C-terminal region of all blue copper proteins can be assigned to two beta strands and a connecting segment that contains a potential histidine ligand. A similar assignment is made for the second probable blue (Type 1) site that is located in the middle fragment of ceruloplasmin also. The secondary structure regions for stellacyanin and subunit II of cytochrome oxidase predicted by the Chou-Fasman method are compared to those found in the crystal structures of plastocyanin and azurin.
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PMID:Blue copper sites and analogous sites in copper-containing oxidases: a structural description. 641 68

With the completion of the primary structure of the 50,000- and 19,000-dalton fragments of human ceruloplasmin [ferroxidase; iron(II):oxygen oxidoreductase, EC 1.16.3.1], over half of the covalent structure of the single polypeptide chain of this protein is known. Visual and computer analysis of the sequence of the 564 amino acid residues in the two fragments gives clear evidence of statistically significant internal homology suggestive of evolutionary replication of two smaller units. Two homology regions, each composed of 224 residues, were defined by an intrasequence alignment that required only three gaps in each 224-residue segment. The two homology regions exhibited 43% identity in sequence, and 13% of the remaining positions had similar residues. The sequence of a 160-residue segment in ceruloplasmin exhibits significant homology to the active (copper-binding) sites of blue electron-transfer proteins such as azurins and plastocyanins and multicopper oxidases such as cytochrome oxidase and superoxide dismutase. It is proposed that a primitive ceruloplasmin gene was formed by the fusion of two genes coding, respectively, for protein abut 160 and 190 amino acid residues in length and that this precursor gene coding for about 350 amino acids was later triplicated to form the gene for the present-day ceruloplasmin molecule of about 1050 amino acids.
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PMID:Internal duplication and evolution of human ceruloplasmin. 694 4

Similarities in morphology between copper-deficient cartilage and abnormal cartilage associated with tibial dyschondroplasis (TD) led to studies dealing with copper metabolism and its possible relation to TD. Abnormal cartilage and copper deficient cartilage cells both oxidize significantly less glucose to CO2 and water when compared to normal epiphyseal and day-old hypertrophic cartilage cells. Plasma ceruloplasmin levels and cartilage copper content were not different between normal birds and those affected wth TD, which seemed to rule out a genetic defect in copper metabolism as being partly responsible for the abnormal cartilage occurrence. Mitochondrial marker enzyme activities were investigated, and abnormal cartilage showed a significant decrease in activity of both cytochrome oxidase and citrate synthase. The yield of mitochondria on a percent of total activity basis was quite low from both normal and abnormal cartilages, and, thus, an absolute conclusion with regard to mitochondrial impairment cannot be made at this time.
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PMID:Metabolism of abnormal cartilage cells associated with tibial dyschondroplasia. 741 92

The various roles played by copper in iron metabolism are reviewed. Copper may interfere with iron absorption by binding to mucosal transferrin. Mobilization of iron from mucosal, reticuloendothelial, and hepatic parenchymal cells may be effected through the action of ceruloplasmin. Copper may also participate in heme synthesis through the action of cytochrome oxidase. Reutilization of iron by the spleen reticuloendothelial cells is subjected to inhibition by excess copper.
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PMID:The role of copper in iron metabolism. 744 87

Cystic fibrosis patients are at risk for nutrient deficiencies from malabsorption related to exocrine pancreatic insufficiency. This research examined the copper homeostasis of children with cystic fibrosis. Our objective was to measure cytochrome oxidase and copper-zinc superoxide dismutase activities in mononuclear cells, neutrophils, and erythrocytes of adolescents with cystic fibrosis, as well as plasma copper and ceruloplasmin. Thirteen adolescents with pancreatic insufficiency caused by cystic fibrosis were compared with 10 age- and sex-matched control subjects. Serum copper concentrations and ceruloplasmin measurements were not significantly different between the two groups. Cytochrome oxidase activity was significantly lower in the mononuclear cells and copper-zinc superoxide dismutase activity was significantly lower in the neutrophils and erythrocytes of the cystic fibrosis group. Other measures of trace element status such as hemoglobin concentration, serum ferritin, serum zinc, glutathione peroxidase activity, and manganese superoxide dismutase activity were not different between the two groups. Reductions in the activity of two copper-dependent enzymes suggest abnormal copper homeostasis in this population.
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PMID:Reduced copper enzyme activities in blood cells of children with cystic fibrosis. 766 Nov 26

Copper serves as the cofactor for a number of important enzymes in cartilage, as well as in other tissues, including lysyl oxidase, superoxide dismutase, and cytochrome oxidase. Ceruloplasmin is responsible for the transport of approx. 95% of the copper in serum, but the mechanisms for intracellular copper transport are unknown. We have demonstrated recently that a high-molecular-weight cartilage glycoprotein, referred to as CMGP, has regions of sequence homology with ceruloplasmin. CMGP also binds copper and has at least some oxidase activity similar to that of ceruloplasmin. Other tissues synthesize intracellular ceruloplasmin-like proteins. The present report represents part of an effort to examine the hypothesis that CMGP is a copper transport protein in chondrocytes and to characterize the enzymatic activities of CMGP. These studies demonstrate that CMGP is the principal chondrocyte protein labeled by 67Cu in vitro and that the label is localized to the mitochondria, cytosol, and membrane fractions of sucrose gradients, suggesting copper transport through the cell. In parallel experiments, [3H]leucine was incorporated into proteins corresponding to the subunits and fragments of CMGP, as described previously, and in a similar distribution among the subcellular fractions as labeled copper. Additionally, CMGP has oxidase and ferroxidase activities similar to those of ceruloplasmin.
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PMID:Studies of copper transport in cultured bovine chondrocytes. 791 77

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