Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Complexes of oxidised cytochrome c oxidase with NO in the absence and presence of ligands such as formate, fluoride and cyanide are photodissociable. After photodissociation at 10 K the EPR spectrum of the high-spin cytochrome a3+3 in the absence of ligands or in the presence of fluoride or formate disappears - as does the EPR spectrum of the low-spin cytochrome a3+3 in the presence of cyanide. The action spectra of the photodissociation reaction of these complexes show slight differences but all have maxima at 640-660 nm and below 400 nm, and are assigned to a diamagnetic Cu+B-NO+ complex. The differences in the action spectra in the presence of various ligands are due to binding of these anions to the cytochrome (a3-CuB) couple. The disappearance of the cytochrome a3 signal upon photodissociation of the Cu+B-NO+ complex is explained by a magnetic interaction between cytochrome a3+3 and Cu2+B in the photodissociated complex. The temperature at which NO recombines with Cu2+B is about 30 K and slightly affected by the presence of added ligands. It is suggested that in the oxidised ligand-cytochrome c oxidase complexes the coupling ligand between cytochrome a3+3 and Cu2+B is cyanide, fluoride and formate. The observation that two ligands may bind simultaneously to the cytochrome a3-CuB couple leads to further support for the notion that during turnover of cytochrome c oxidase both metal ions are involved in binding and reduction of oxygen.
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PMID:An EPR study of the photodissociation reactions of oxidised cytochrome c oxidase-nitric oxide complexes. 630 20

Bovine heart mitochondrial cytochrome c oxidase (cytochrome aa3) (EC 1.9.3.1) has been demonstrated to occur in several forms when the redox centers in the protein are thought to be fully oxidized. We report here the results of extensive EPR studies at 3, 8.9, 9.2, 9.4, 15 and 34 GHz on the resting state, the alternative resting state (with g = 12 at 9 GHz) and pulsed state (with g = 5 signal at 9 GHz). Theoretical consideration is given to all binary spin-coupling possibilities under the constraint that the iron atoms are either ferric or ferrous and the copper atoms are either cupric or cuprous. We conclude that the g = 12 signal can arise from any spin system with S greater than 1 and D = 0.15 cm-1. The g = 5 signals originate from an excited, integer-spin system with D = 0.035 cm-1, which is approximately 7 cm-1 above the ground state (not observed in EPR). It is pointed out that in interpretations of data and elaboration of suitable models in this field, the implications of spin-coupling should be considered in a comprehensive and not in a selective way. At 3 GHz, EPR spectra of CuA in the resting, pulsed and anaerobically oxidized states show that this center is identical in its EPR for all three states.
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PMID:Multiple frequency EPR studies on three forms of oxidized cytochrome c oxidase. 631 Dec 73

The complex of cytochrome c oxidase with NO and azide has been studied by EPR at 9.2 and 35 GHz. This complex which shows delta ms = 2 EPR triplet and strong anisotropic signals, due to the interaction of cytochrome a2+3 X NO (S = 1/2) and Cu2+B (S = 1/2), is photodissociable . Its action spectrum is similar to that of cytochrome a2+3 X NO with bands at 430, 560 and 595 nm, but shows an additional band in the near ultraviolet region. The quantum yield of the photodissociation process of cytochrome a2+3 X NO in the metal pair appears to depend on the redox state of CuB. When the photolysed sample was warmed to 77 K, a complex was observed with the EPR parameters of cytochrome a3+3 - N-3 - Cu1 +B (S = 1/2). This process of electron and ligand transfer can be reversed by heating the sample to 220 K. It is suggested that in the triplet species azide is bound to Cu2+B whereas NO is bridged between Cu2+B and the haem iron of the cytochrome a2+3. The complex has a triplet ground state and a singlet excited state with an exchange interaction J = -7.1 cm-1 between both spins. The anisotropy in the EPR spectra is mainly due to a magnetic dipole-dipole interaction between cytochrome a2+3 X NO and Cu2+B. From simulations of the triplet EPR spectra obtained at 9 and 35 GHz, a value for the distance between the nitroxide radical and Cu2+B of 0.33 nm was found. A model of the NO binding in the cytochrome a3-Cu pair shows a distance between the haem iron of cytochrome a3 and CuB of 0.45 nm. It is concluded that the cytochrome a3-CuB pair forms a cage in which the dioxygen molecule is bidentate coordinated to the two metals during the catalytic reaction.
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PMID:The cytochrome c oxidase-azide-nitric oxide complex as a model for the oxygen-binding site. 632 19

O2-activated bovine heart cytochrome c oxidase has been examined by dual-mode EPR spectrometry. Resonances have been observed at g = 10 and 4.5 in the parallel mode and at g = 10, 5, 1.8 and 1.7 in the normal mode. The bulk of these signals are interpreted to come from a stoichiometric S = 2 system with magnitude of a = 0.17 cm-1, D = +2.1 cm-1, magnitude of E = 0.026 cm-1, g = 2. Exchange coupling between cytochrome a3 and CuB is not indicated.
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PMID:Dual-mode EPR spectrometry of O2-pulsed cytochrome c oxidase. 632 75

Cytochrome-c oxidase contains an unusual copper centre (CuA) located in subunit II. This centre mediates one-electron transfer from cytochrome c to low-spin heme a. Recent spectroscopic and biochemical studies have shown that this centre is a valence delocalised dinuclear [Cu(+1.5)-Cu(+1.5)] centre. We have measured the absorption, EPR and variable-temperature magnetic circular dichroism spectra of the CuA-binding domain isolated from Paracoccus denitrificans cytochrome aa3. The EPR spectrum showed the following signals: gparallel = 2.18; gperpendicular = 2.03. gparallel exhibited a seven-line hyperfine splitting pattern, with an intensity ratio showing that the single unpaired electron interacted equally with two copper nuclei. The magnetic circular dichroism spectrum was identical to those from CuA in bovine heart cytochrome-c oxidase and centre A of nitrous-oxide reductase, showing the close structural similarity between the three centres. To identify the ligands of CuA, all the conserved putative ligands in the P. denitrificans CuA domain were substituted. Only five residues, Cys244, Cys248, His209, His252, and Met255, were required for correct assembly of the CuA centre. Replacement of Met255 caused protein misfolding. Hence, methionine may have a structural role for the folding of the protein rather than being a CuA ligand. Given that both copper ions must have identical coordination geometries, the number of possible structures is limited. Two models are proposed: one involves the thiolate side-chains of Cys244 and Cys248 bridging a pair of copper ions with one histidine coordinating each copper ion, and the other has terminal ligation of each copper ion by one cysteine and one histidine residue. In both models, the metal-metal distance can be sufficiently short to permit direct d-orbital overlap of the copper ions. The magnetic circular dichroism transitions at 475 nm and 525 nm are assigned to thiolate-to-copper charge-transfer processes polarised perpendicular to one another, although the magnetic circular dichroism intensities show that the excited states were heavily mixed with copper d-orbitals. These intensities can be interpreted in the thiolate bridged model in terms of transitions within a Cu2(SR)2 rhomb. In the model involving terminal cysteine ligation, exciton coupling of two thiolate-to-copper charge-transfer transitions of similar energy, polarised along the Cu-S bonds, would contribute two transitions perpendicular to one another. This requires that the cysteine ligands have a cis orientation relative to one another.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Spectroscopic and mutagenesis studies on the CuA centre from the cytochrome-c oxidase complex of Paracoccus denitrificans. 755 64

Upon reaction of cytochrome oxidase with hydrogen peroxide, the spectral changes are complete, with slightly less than 1 equiv of hydrogen peroxide per cytochrome oxidase. At pH 8 the product is a mixture of the P and F forms, while at pH 6 the product is exclusively the F form. These data are inconsistent with current interpretations of the structure of compounds P and F. Two stable radical species are detected by EPR; the relative amounts of these species are pH dependent. The MCD spectra of pure P and F are reported. It is suggested that compound F is a hydrogen peroxide adduct of cytochrome oxidase with cytochrome a3 in the low-spin state and that compound P is an oxyferryl state of cytochrome alpha 3 in support of the recent Raman data of Proshlyakov et al. [(1994) J. Biol. Chem. 269, 29385-29388]. We also suggest that copper B is in the trivalent state in compound P.
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PMID:The interaction of cytochrome oxidase with hydrogen peroxide: the relationship of compounds P and F. 757 73

Wild-type and several mutants of cytochrome c oxidase from Rhodobacter sphaeroides were characterized by EPR spectroscopy. A pH-induced g12 signal, seen previously in mammalian cytochrome oxidase and assigned to the presence of a bridging carboxyl ligand in the bimetallic cytochrome a3-CuB site, is found also in the bacterial enzyme. Mutation of glutamate-286 to glutamine inactivates the enzyme but does not affect this signal, demonstrating that the carboxyl group of this residue is not the bridging ligand. Three mutants, M106Q, located one helix turn below a histidine ligand to cytochrome a, and T352A as well as F391Q, located close to the bimetallic center, are shown to affect dramatically the low-spin heme signal of cytochrome a. These mutants are essentially inactive, suggesting that these three mutations result in alterations to cytochrome a that render the oxidase non-functional.
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PMID:EPR studies of wild-type and several mutants of cytochrome c oxidase from Rhodobacter sphaeroides: Glu286 is not a bridging ligand in the cytochrome a3-CuB center. 758 73

It has been proposed that nitric oxide (NO) toxicity is due to damage to mitochondrial iron-sulfur centers, resulting in inhibition of mitochondrial respiration and the appearance of an EPR-detectable (g = 2.04) iron-sulfur dinitrosyl complex - Fe(RS)2(NO)2. We show that the addition of nitroprusside (an NO and NO+ donor) to rat brain synaptosomes generates large (> 30 microM) concentrations of EPR-detectable iron-sulfur-dinitrosyl complexes. However, there was no correlation between the size of the g = 2.04 EPR signal and the inhibition of synaptosomal respiration. No significant loss of intensity was seen from the mitochondrial iron-sulfur protein EPR signals. The results are consistent with previous data demonstrating that cytochrome oxidase, not iron-sulfur enzymes, is the primary target for NO inhibition of brain cell respiration (Brown, G.C. and Cooper, C.E. (1994) FEBS Lett. 356, 295-298).
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PMID:The interactions between nitric oxide and brain nerve terminals as studied by electron paramagnetic resonance. 762 54

Substoichiometric amounts of Mn are bound by the aa3-type cytochrome c oxidase of Rhodobacter sphaeroides and appear in the EPR spectrum of the purified enzyme as signals that overlay those of CuA in the g = 2.0 region. The Mn is tightly bound and not removed by a high degree of purification or by washing with 50 mM EDTA. The amount of bound Mn varies with the ratio of Mg to Mn in the growth medium. Oxidase containing no EPR-detectable Mn can be prepared from cells grown in low Mn/Mg, while high Mn/Mg in the growth medium gives rise to near stoichiometric levels (0.7 mol/mol of aa3). Incubation of purified Mn-deficient oxidase with 1 mM Mn does not allow incorporation into the tight binding site, indicating that this site is not accessible in the assembled protein. When bound Mn is depleted by growth in high Mg, there is no change in electron transfer activity, suggesting that Mg may substituted for Mn and maintain protein structure. Analysis of site-directed mutants in an extramembrane loop close to the active site of cytochrome oxidase identifies His-411 and Asp-412 of subunit I as probable ligands of the Mn. Mutation of either residue leads to lower activity and loss of Mn binding, even in cells grown in elevated concentrations of Mn. Since Mn binding correlates with the [Mn] to [Mg] ratio in the culture medium, we propose that Mn competes for the site that normally binds a stoichiometric Mg ion in aa3-type cytochrome c oxidases.
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PMID:Analysis of site-directed mutants locates a non-redox-active metal near the active site of cytochrome c oxidase of Rhodobacter sphaeroides. 777 4

A novel, large-scale method for the purification of cytochrome-c oxidase from the yeast Saccharomyces cerevisiae is described. The isolation procedure gave highly pure and active enzyme at high yields. The purified enzyme exhibited a heme a/protein ratio of 9.1 mmol/mg and revealed twelve protein bands after Tricine/SDS/PAGE. N-terminal sequencing showed that eleven of the corresponding proteins were identical to those recently described by Taanman and Capaldi [Taanman, J.-W. & Capaldi, R.A. (1992) J. Biol. Chem. 267, 22,481-22,485]. 15 of the N-terminal residues of the 12th band were identical to subunit VIII indicating that this band represents a dimer of subunit VIII (M(r) 5364). We conclude that subunit XII postulated by Taanman and Capaldi is the subunit VIII dimer and that cytochrome-c oxidase contains eleven rather than twelve subunits. We obtained the complete sequence of subunit VIa by Edman degradation. The protein contains more than 25% of charged amino acids and hydropathy analysis predicts one membrane-spanning helix. The purified enzyme had a turnover number of 1500 s-1 and the ionic-strength dependence of the Km value for cytochrome-c was similar to that described for other preparations of cytochrome-c oxidase. This was also true for the cyanide-binding characteristics of the preparation. When the enzyme was isolated in the presence of chloride, more than 90% of the preparation showed fast cyanide-binding kinetics and was resistant to formate incubation, indicating that chloride was bound to the binuclear center. When the enzyme was isolated in the absence of chloride, approximately 70% of the preparation was in the fast form. This high content of fast enzyme was also reflected in the characteristics of optical and EPR spectra for cytochrome-c oxidase purified with our method.
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PMID:Kinetic properties and ligand binding of the eleven-subunit cytochrome-c oxidase from Saccharomyces cerevisiae isolated with a novel large-scale purification method. 785 99


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