Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Comparison of the amino acid sequence of rat liver NADPH-cytochrome P-450 oxidoreductase with that of flavoproteins of known three-dimensional structure suggested that residues Tyr-140 and Tyr-178 are involved in binding of FMN to the protein. To test this hypothesis, NADPH-cytochrome P-450 oxidoreductase was expressed in Escherichia coli using the expression-secretion vector pIN-III-ompA3, and site-directed mutagenesis was employed to selectively alter these residues and demonstrate that they are major determinants of the FMN-binding site. Bacterial expression produced a membrane-bound 80-kDa protein containing 1 mol each of FMN and FAD per mol of enzyme, which reduced cytochrome c at a rate of 51.5 mumol/min/mg of protein and had absorption spectra and kinetic properties very similar to those of the rat liver enzyme. Replacement of Tyr-178 with aspartate abolished FMN binding and cytochrome c reductase activity. Incubation with FMN increased catalytic activity to a maximum of 8.6 mumol/min/mg of protein. Replacement of Tyr-140 with aspartate did not eliminate FMN binding, but reduced cytochrome c reductase activity about 5-fold, suggesting that FMN may be bound in a conformation which does not permit efficient electron transfer. Substitution of phenylalanine at either position 140 or 178 had no effect on FMN content or catalytic activity. The FAD level in the Asp-178 mutant was also decreased, suggesting that FAD binding is dependent upon FMN; FAD incorporation may occur co-translationally and require prior formation of an intact FMN domain.
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PMID:Structural analysis of the FMN binding domain of NADPH-cytochrome P-450 oxidoreductase by site-directed mutagenesis. 270 80

A model is proposed for the respiratory adaptation to falling oxygen concentration during growth of the microaerophilic bacterium Campylobacter mucosalis. During the early stages of growth, the oxidation of formate is a two-stage branched process involving the production of H2O2 followed by its peroxidatic removal. In later stages of growth, at lower oxygen concentrations, the predominant electron flow is linear to a membrane-bound cytochrome-c oxidase which reduces O2 directly to H2O. Several components of this model have been investigated. H2O2 was produced during formate oxidation and accumulated when electron transfer to the cytochrome-c peroxidase was inhibited. A cytochrome c-553, of the Class 1 types, was purified and shown to be the specific electron donor to both the peroxidase and the membrane-bound oxidase. The levels of this cytochrome c and of the peroxidase were higher in cells harvested early in growth. In later stages of growth, the activity of the membrane-bound oxidase increased. Proton pumping across the membrane was detected with either H2O2 or oxygen as terminal electron acceptor. The novel energy-conserving role of H2O2 in this catalase-negative bacterium is discussed in relation to its microaerophilic nature.
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PMID:The microaerophilic respiration of Campylobacter mucosalis. 283 75

The detergent-induced amplification of lucigenin-dependent chemiluminescence of O2-, generated by xanthine oxidase or microsomal NADPH oxidase was studied. An assay system is described which is at least 10 times more sensitive than normal lucigenin-dependent chemiluminescence due to the amplification by high concentrations of octylphenylpolyethylene glycol (Triton X-100). Compared to the superoxide dismutase-sensitive reduction of acetylated cytochrome c, a 3750-fold lower amount of microsomal protein was necessary to produce an O2- signal 10-fold above the background. In contrast to cytochrome c reduction, detergent-amplified chemiluminescence of lucigenin was completely inhibited by superoxide dismutase and therefore more selective for O2-. The membrane-bound and Triton X-100-solubilized NADPH oxidase from microsomes of macrophages was activated by ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid and inhibited by Ca2+ and sodium dodecyl sulfate. The membrane-bound enzyme showed a Km value of 1.35 microM, which decreased to 0.95 microM after the addition of 12% (g/g) Triton X-100. The Km and Vmax values of soluble xanthine oxidase were not influenced by Triton X-100, indicating that the enzyme activities were not impaired by the high concentrations of detergent.
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PMID:Detergent-amplified chemiluminescence of lucigenin for determination of superoxide anion production by NADPH oxidase and xanthine oxidase. 283 20

We have studied the reactions of the oxidase of Paracoccus dentrificans with its membrane-bound cytochrome c and with soluble cytochrome c550 of Paracoccus and of bovine heart. The turnover rate of Paracoccus oxidase with membrane-bound cytochrome c is high, approaching 1000/sec. at 25 degrees. When soluble cytochrome c is added to the electron transport chain oxidizing NADH or succinate, no increase in 02 uptake is observed. When the oxidase is reacting with the membrane-bound cytochrome c, the reaction site is not exposed for reaction with soluble cytochrome c. We have purified the Paracoccus oxidase, following relatively simple methodology. It has three major subunits similar in molecular weight to those of the larger subunits of the bovine oxidase. When reconstituted in the presence of asolectin, it is just as active as the intact membrane-bound oxidase in reaction with soluble cytochrome c. The soluble cytochrome c reacts directly with the cytochrome aa3. We found direct evidence that the oxidase is stimulated in the presence of low concentrations of cytochrome c. The stimulatory effect could be the explanation for the so-called "high affinity" site for reaction with cytochrome c. The reaction of bovine cytochrome c with Paracoccus oxidase resembles that with the bovine oxidase in every way tested. The Paracoccus oxidase must have a cytochrome c binding site equivalent to that of the bovine enzyme. The reaction of the Paracoccus oxidase with its own soluble cytochrome c550, which has a highly negative hemisphere on the side of the molecule away from the heme crevice, has different properties from those seen in its reaction with bovine cytochrome c. However the properties all change to be like those with bovine cytochrome c on addition of poly-L-lysine. These data emphasize the importance of all of the charged groups on the cytochrome c in influencing binding or electron transfer reactions. The respiratory chain on the membranes of a cytochrome c-deficient mutant can reduce cytochrome aa3 using NADH as substrate in a manner similar to that of the wild type, although at somewhat lower rate, suggesting diffusional encounter of the large complexes within the membrane. Our data permit speculations about the possible evolution from the bacterial to the mitochondrial electron transport system.
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PMID:Kinetics of the interaction of cytochrome c oxidase of Paracoccus denitrificans with Paracoccus and mitochondrial cytochrome c. 284 81

The current view on the regulatory function of nuclear-encoded subunits of cytochrome c oxidase from higher evolved organisms is presented. The activity of monomeric laurylmaltoside-dissolved, but not of reconstituted cytochrome c oxidase, is strongly affected by anions accompanied by a conformational change of the enzyme, as shown by changed visible spectra. Addition of uncoupler to proteoliposomes induces the same anion sensitivity as obtained with the soluble enzyme, suggesting dissociation of the dimeric membrane-bound enzyme by uncoupler. Nucleotides are suggested to regulate cytochrome c oxidase activity at 3 different sites: 1) Interaction of ATP with a cytosolic site (outside) increases the Km for cytochrome c in the enzyme from bovine heart and Paracoccus denitrificans; 2) binding of ADP at a matrix site decreases, and 3) binding of ATP at another matrix site increases the Km for cytochrome c of the mammalian enzyme.
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PMID:Evolution of cytochrome c oxidase. 284 83

A detailed study of the soluble cytochrome composition of Rhodopseudomonas sphaeroides (ATCC 17023) indicates that there are five c-type cytochromes and one b-type cytochrome present. The molecular weights, heme contents, amino acid compositions, isoelectric points, and oxidation-reduction potentials were determined and the proteins were compared with those from other bacterial sources. Cytochromes c2 and c' have previously been well characterized. Cytochrome c-551.5 is a diheme protein which has a very low redox potential, similar to certain purple bacterial and algal cytochromes. Cytochrome c-554 is an oligomer, which is spectrally similar to the low-spin isozyme of cytochrome c' found in other purple bacteria (e.g., Rhodopseudomonas palustris cytochrome c-556). An unusual high-spin c-type heme protein has also been isolated. It is spectrally distinguishable from cytochrome c' and binds a variety of heme ligands including oxygen. A large molecular-weight cytochrome b-558 is also present which appears related to a similar protein from Rhodospirillum rubrum, and the bacterioferritin from Escherichia coli. None of the soluble proteins appear to be related to the abundant membrane-bound c-type cytochrome in Rps. sphaeroides which has a larger subunit molecular weight similar to mitochondrial cytochrome c1 and chloroplast cytochrome f.
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PMID:Soluble cytochrome composition of the purple phototrophic bacterium, Rhodopseudomonas sphaeroides ATCC 17023. 298 91

Rhodopseudomonas capsulata cells were shifted from phototrophic (anaerobic, light) to chemotrophic (semiaerobic, dark, 10% air saturation) growth conditions. During the adaptation period of 4 h, the bacteriochlorophyll content of cells and membranes decreased, and a newly synthesized 65-kilodalton polypeptide of the cytochrome oxidase was incorporated into the membrane fraction. The enzymatic activity of the cytochrome oxidase increased strongly after a lag time of 2 h. The amount of cytochrome oxidase protein does not follow the same kinetics. The relative amount of a membrane-bound cytochrome c of low molecular weight, which has been proposed to be a donor for the cytochrome oxidase, increased during adaptation.
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PMID:Kinetic studies on formation of cytochrome oxidase of Rhodopseudomonas capsulata after a shift from phototrophic to chemotrophic growth. 298 93

The effect of a monoclonal antibody to a soluble cytochrome c from Paracoccus denitrificans was tested on the membrane-bound electron-transport system of this bacterium. This antibody (F3-10.2) and one previously described (F3-29.4) (Kuo, L.M., Davies, H.C. and Smith, L. (1984) Biochim. Biophys. Acta 766, 472-482) were deduced to bind to the cytochrome c in the area including amino acid residue number 23 on a loop on the side of the heme crevice. In contrast to the observations with the previously tested antibody, the present data show the second antibody to block completely the reaction of the cytochrome c with cytochrome c oxidase but not that with cytochrome c reductase. Neither antibody has an appreciable inhibitory effect on the NADH oxidase of the isolated detergent-treated membranes. The two antibodies bind in different ways, giving insight into the interaction of a soluble protein with membrane-bound enzymes. The data indicate that the reaction sites on the cytochrome c for the oxidase and reductase moieties of P. denitrificans are different. They also argue against the need for a dissociable cytochrome c comparable to that which functions on the mitochondrial inner membrane.
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PMID:Monoclonal antibodies to cytochrome c from Paracoccus denitrificans: effects on electron transport reactions. 299 23

Cytochrome c oxidase can generate membrane potential in the absence of cytochrome c (e.g., in cytochrome c-deficient mitochondria or in proteoliposomes) with hexaammineruthenium as an artificial electron donor. Of several other redox mediators tested, phenazine methosulfate was found to be an efficient artificial substrate for membrane energization by cytochrome oxidase, whereas TMPD, DAD, DCPIP or ferrocyanide are virtually ineffective. The ability of Ru(NH3)6(2+) and phenazine methosulfate to support the generation of delta psi by cytochrome c-oxidase correlates with their effectiveness as electron donors to cytochrome a in the cyanide-inhibited membrane-bound enzyme.
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PMID:Hexaammineruthenium as an electron donor to mitochondrial cytochrome oxidase: membrane potential generation in the absence of cytochrome c. 300 96

The concerted activity of two microsomal enzymes, heme oxygenase and NADPH-cytochrome c (P-450) reductase, is required for isomer-specific oxidation of heme molecule; heme oxygenase is commonly believed to be rate limiting in this activity. In this report, we provide evidence strongly suggesting the rate-limiting role of the reductase in oxidation of heme molecule in rat testis. In the testis and the liver of rats treated with Cd (20 mumol/kg, sc, 24 h) heme oxygenase activity, assessed by the formation of bilirubin, was decreased by 50% and increased by 7-fold, respectively. In these animals, the reductase activity was decreased by nearly 75% in the testis, but remained unchanged in the liver. Similarly, the reductase activity in the liver was not altered when heme oxygenase activity was increased by 20-fold in response to bromobenzene treatment. Addition of purified testicular reductase preparation (purified over 4000-fold), or hepatic reductase, to the testicular microsomes of Cd-treated rats obliterated the Cd-mediated inhibition of heme oxygenase activity. The chromatographic separation of heme oxygenase and the reductase of the testicular microsomal fractions revealed that the reductase activity was markedly decreased (75%) while the heme oxygenase activity, when assessed in the presence of exogenous reductase, was not affected by in vivo Cd treatment. In vitro, the membrane-bound reductase preparation obtained from the testis was more sensitive to the inhibitory effect of Cd than the liver preparation. However, the purified reductase preparations from the testis and the liver exhibited a similar degree of sensitivity to Cd. Based on the molar ratio of heme oxygenase to the reductase in the microsomal membranes of the liver and the testis it appeared that the testicular heme oxygenase, which is predominantly HO-2 isoform, interacts with the reductase less effectively than HO-1; in the induced liver, heme oxygenase is predominantly the HO-1 isoform. It is suggested that due to the low abundance of NADPH-cytochrome c (P-450) reductase and the apparently lower affinity of the enzyme for HO-2, the reductase exerts a regulatory action on heme oxygenase activity in the testis.
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PMID:Cadmium-mediated inhibition of testicular heme oxygenase activity: the role of NADPH-cytochrome c (P-450) reductase. 309 74


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