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)

1. Techniques and experiments are described concerned with the millisecond kinetics of EPT-detectable changes brought about in cytochrome c oxidase by reduced cytochrome c and, after reduction with various agents, by reoxidation with O2 or ferricyanide. Some experiments in the presence of ligands are also reported. Light absorption was monitored by low-temperature reflectance spectroscopy. 2. In the rapid phase of reduction of cytochrome c oxidase by cytochrome c (less than 50 ms) approx. 0.5 electron equivalent per heme a is transferred mainly to the low-spin heme component of cytochrome c oxidase and partly to the EPR-detectable copper. In a slow phase (less than 1 s) the copper is reoxidized and high-spin ferric heme signals appear with a predominant rhombic component. Simultaneously the absorption band at 655 nm decreases and the Soret band at 444 nm appears between the split Soret band (442 and 447 nm) of reduced cytochrome a. 3. On reoxidation of reduced enzyme by oxygen all EPR and optical features are restored within 6 ms. On reoxidation by O2 in the presence of an excess of reduced cytochrome c, states can be observed where the low-spin heme and copper signals are largely absent but the absorption at 655 nm is maximal, indicating that the low-spin heme and copper components are at the substrate side and the component(s) represented in the 655 nm absorption at the O2 side of the system. On reoxidation with ferricyanide the 655 nm absorption is not readily restored but a ferric high-spin heme, represented by a strong rhombic signal, accumulates. 4. On reoxidation of partly reduced enzyme by oxygen, the rhombic high-spin signals disappear within 6 ms., whereas the axial signals disappear more slowly, indicating that these species are not in rapid equilibrium. Similar observations are made when partly reduced enzyme is mixed with CO. 5. The results of this and the accompanying paper are discussed and on this basis an assignment of the major EPR signals and of the 655 nm absorption is proposed, which in essence is that published previously (Hartzell, C.R., Hansen, R.E. and Beinert, H. (1973) Proc. Natl. Acad. Sci. U.S. 70, 2477-2481). Both the low-spin (g=o; 2.2; 1.5) and slowly appearing high-spin (g=6; 2) signals are attributed to ferric cytochrome a, whereas the 655 nm absorption is thought to arise from ferric cytochrome a3, when it is present in a state of interaction with EPR-undectectable copper. Alternative possibilities and possible inconsistencies with this proposal are discussed.
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PMID:Kinetic studies on cytochrome c oxidase by combined epr and reflectance spectroscopy after rapid freezing. 0 21

We have previously described a transient high spin ferric heme species in cytochrome c oxidase (EC 1.9.3.1) which represent a3+(3) (Beinert, H. and Shaw, R.W.(1977) Biochim. Biophys. Acta 462, 12u--130), and can be detected and quantitatively determined by EPR. We have now used out ability to generate this species to study reactions of a3+(3) with substrates and ligands and also responses to pH changes. This was accomplished by multiple rapid mixing and freezing techniques in conjunction with low temperature EPR and optical reflectance spectroscopies. The substrates used were O2 and ferrocytochrome c and the ligands cyanide, sulfide, azide and carbon monoxide. Contrary to the oxidized, resting form of the enzyme, the transient high spin species of a3+(3) reacts within less than 10 ms stoichiometrically with cyanide and sulfide and at a slower rate with azide. The transient a3+(3) species responds to O2 and CO by changes in signal size or shape, although no oxidoreduction is involved, indicating that a3+(3) registers the presence of these gases. The high spin signal of the transient species is readily abolished by ferrocytochrome c or on raising the pH. Decreasing the pH induces a shift from the rhombic towards the axial component of the signal. Since the responses to CO and pH are analogous for the rhombic transient species to those observed with the rhombic high spin ferric heme species produced on partial reduction, it is suggested that the rhombic signals represent a3+(3) in either case. In all these experiments, in which EPR detectable a3+(3) was observed in large yield, no extra signals for copper or correspondingly increased intensity in the copper signal at g = 2 were seen. The relationship is discussed of the obviously reactive transient species of a3+(3) to other 'activated' species that have been reported and to the oxidized resting form of the enzyme, which is known to react only slowly with ligands and to respond sluggishly to substrate.
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PMID:Responses of the a3 component of cytochrome c oxidase to substrate and ligand addition. 3 Apr 77

1. The major EPR signals from native and cytochrome c-reduced beef heart cytochrome c oxidase (EC 1.9.3.1) are characterized with respect to resonance parameters, number of components and total integrated intensity. A mistake in all earlier integrations and simulations of very anisotropic EPR signals is pointed out. 2. The so-called Cu2+ signal is found to contain at least three components, one "inactive" form and two nearly similar active forms. One of the latter forms, corresponding to about 20% of the total EPR detectable Cu, has not been observed earlier and can only be resolved in 35 GHz spectra. It is not reduced by cytochrome c and is thought to reflect some kind of inhomogeneity in the enzyme preparation. The 35 GHz spectrum of the cytochrome c reducible component shows a rhombic splitting and can be well simulated with g-values 2.18, 2.03 and 1.99. The origin of such a unique type of Cu2+ spectrum is discussed. 3. The low-spin heme signal in the oxidized enzyme (g = 3.03, 2.21, 1.45) is found to correspond closely to one heme and shows no signs of interaction with other paramagnetic centres. 4. The high-spin heme signals appearing in partly reduced oxidase are found to consist of at least three species, one axial and two rhombic types. An integration procedure is described that allows the determination of the total integral intensity of high-spin heme EPR signals only by considering the g = 6 part of the signals. In a titration with ascorbate and cytochrome c the maximum intensity of the g = 6 species corresponds to 23% of the enzyme concentration.
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PMID:EPR signals from cytochrome c oxidase. 17 42

Binuclear cupric ion clusters have been established in: human ceruloplasmin, hemocyanin, and mushroom tyrosinase. Substantial evidence makes it very probable that fungal laccase and zucchini ascorbate oxidase contain this cluster. Some evidence makes it possible that copper clusters function in the catalytic cycles of cytochrome oxidase (mammalian) and dopamine-beta-hydroxylase. These studies throw light on the criteria which must be employed to establish the existence of functional binuclear copper clusters in enzymes: (1) Stoichiometric Criteria: binding of O2 and CO with Cu/ligand = 2; redox titrations with n = 2; (2) Physical and Chemical Criteria: magnetic evidence of diminished paramagnetism of cupric centers, EPR evidence of broadened or absent absorptions, EPR evidence of magnetic dipolar interactions among cupric ions; absorption bands characteristic of Cu(II)-Cu(II) complexes; laser resonance raman scattering characteristic of peroxidic dioxygen in the oxyforms.
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PMID:Binuclear copper clusters as active sites for oxidases. 18 78

The EPR spectrum of copper in cytochrome c oxidase (EC 1.9.3.1) has been studied between 5 and 220 degreesK, and the spectral parameters have been determined for both forms of EPR-detectable copper by computer simulation methods. Numerical methods have been developed to separate the spectra of intrinsic copper and inactive copper. Evidence is presented to show that inactive copper is probably formed by denaturation. The EPR parameters for intrinsic copper were determined as gx = 1.99, gy = 2.03, gz = 2.185, / Ax(Cu) / = 0.0020 cm-1, / Ay(Cu) / = 0.0025 cm-1, / Az(Cu) / = 0.0030 cm-1. The principal values of the g tensor and the small value of /Az(Cu) / are interpreted in terms of mixing of 3d, 4s, and 4p metal orbitals. A flattened-tetrahedral stereochemistry about Cu2+ with an additional rhombic distrotion is in best agreement with all of the data. The peak-to-peak linewidth is found to be orientation dependent, and is described by a tensor with principal values deltaHx = 45G, deltaHy = 65 G, deltaHz = 85 G. A weak dipolar interaction with a low-spin ferric species stereochemistry for the copper ion is consistent with the electron transport function of the enzyme. Broad EPR signals with a very short spin-lattice relaxation time has been observed near g = 14 and g = 3 at 5 degrees K in oxidized cytochrome oxidase but not in the reduced or denatured enzyme. The possibility that these are due to the "EPR-undetectable" iron and copper is raised.
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PMID:An EPR study of the lineshape of copper in cytochrome c oxidase. 18 25

The structure of "membranous cytochrome oxidase" has been investigated by X-ray diffraction, optical polarization spectroscopy and EPR spectroscopy. These studies indicate that the cytochrome oxidase molecules are oriented symmetrically in the membrane profile with a significant portion of their mass occurring within the extravesicular surface of the membrane; the oxidase molecultes span the membrane profile; the distribution of the oxidase molecules over the plane of these membranes is non-crystalline; the oxidase molecules contain bundles of alpha-helical polypeptide chain segments where the average orientation of the helices is normal to the membrane plane; and the average heme orientation within the oxidase molecules is such that the normal to the heme plane lies in the plane of the membrane.
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PMID:The structure of a cytochrome oxidase-lipid model membrane. 20 14

1. Hydrophobic interaction chromatography on Octyl-Sepharose CL-4B is used as a new and simple method for the preparation of large amounts of beef-heart cytochrome c oxidase (ferrocytochrome c:oxygen oxidoreductase, EC 1.9.3.1). 2. The method involves only one cycle of (NH4)2SO4 fractionation before the material is applied to the column. After washing with 10% cholate and 1.5% Tween 80, elution of the enzyme is accomplished with 1% Triton X-100. 3. The enzyme so prepared contains about 10 nmol heme alpha/mg protein and about 0.2% phospholipid. 4. Characterization of the enzyme has been made with optical and EPR spectroscopy and polyacrylamide gel electrophoresis. The preparation appears by these criteria to be at least as good as other purified enzyme preparations. 5. The turnover rate at infinite cytochrome c concentration in 0.1 M sodium phosphate buffer and 0.5% Tween 80 at pH 6.1 is 80 s-1 per functional unit of the enzyme. A more than three-fold activation could be obtained by the addition of phosphatidylcholine at neutral pH.
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PMID:Purification of beef-heart cytochrome c oxidase by hydrophobic interaction chromatography on octyl-Sepharose CL-4B. 20 31

The EPR absorption properties of the hemes of cytochrome oxidase and their liganded derivatives were examined in oriented multilayers from isolated oxidase, mitochondrial membranes and membrane fragments of a bacterium, Paracoccus denitrificans. The hemes of the oxidase in all the systems investigated were oriented normal to the plane of the multilayers. The directions of the g signals corresponding to the gx and gy axes of the g tensor were found to be different in low-spin ferric heme in fully oxidized oxidase and in half-reduced liganded oxidase. It is suggested that this different orientation of gx and gy in fully oxidized oxidase and half-reduced liganded oxidase arises because the respective EPR signals belong to two different hemes, those of cytochrome a and a3.
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PMID:Studies of the orientation of the mitochondrial redox carriers. III. Orientation of the gx and gy axes of the hemes of cytochrome oxidase with respect to the plane of the membrane in oriented membrane multilayers. 21 1

The effects of cyanide, thiocyanide, azide, nitrite, nitrate, ferricyanide, persulfate, sulfide and halogenides on the intensities of the EPR spectrum and the band of 825 nm of cardiac cutochrome oxidase were studied. It was shown that according to their action on the copper the anions may be classified into three groups: 1) anions inducing the reduction of the copper (CN-, CNS-, S2-) anions changing the environment of the copper (N3-, NO2-); 3) anions slightly interacting with the copper (NO3-, halogenides). The incubation of cytochrome oxidase with ferricyanide led to the formation of a free-radical component without causing any pronounced changes in the copper environment; however, treatment of the protein with persulfate was accompanied by an irreversible modification of the copper EPR spectrum.
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PMID:[Interaction of inorganic anions with copper atoms of cytochrome oxidase]. 22 57

A procedure for isolation of cytochrome oxidase and cytochrome P-450 from adrenocortical mitochondria was developed. The heme and copper contents, subunit composition, optical and EPR spectra for these enzymes were determined. The effects of pH, substrates and some inhibitors on the spectra of cytochrome P-450 were studied. It was found that cytochrome oxidase did not inhibit the reactions catalyzed by cytochrome P-450; cytochrome P-450 had no inhibiting effect on the oytochrome oxidase activity.
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PMID:[Electron carriers of adrenocortical mitochondria. Terminal systems]. 22 81

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