EC:1.6.5.2 - FACTA Search

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Query: EC:1.6.5.2 (NQO1)
6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytochrome b-559 was isolated from spinach and the alga Bumilleriopsis filiformis (Xanthophyceae) and characterized by functional properties: (a) It was active as electron acceptor in a diaphorase system using NADPH as donor and ferredoxin and ferredoxin-NADP reductase as redox proteins. (b) It exhibited photooxidation with Photosystem-I particles, when illuminated with 707 nm light. (c) It was photooxidized by Photosystem-II particles and 652 nm light at room temperature. Light greater than 702 nm was ineffective. The data corroborate previous reports on redox reactions of bound cytochrome b-559.
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PMID:Some photoreactions of isolated cytochrome b-559. 91 18

The cytochrome b subunit of the bc1 complexes contains two cytochrome components (bL and bH) and is the locus of both a quinol-oxidizing site (Qo or Qz) and a quinone-reducing site (Qi or Qc). Sequence alignments of this subunit from over 20 eukaryotic and prokaryotic species have revealed a remarkable degree of conservation, including approximately 20 totally conserved residues. In this paper, site-directed mutagenesis has been used to examine the structural or functional roles of 5 of these highly conserved residues, Gly48, Gln58, Ser102, Phe104, and Pro202, all predicted to be within transmembrane alpha-helical segments. The mutants were made in the bc1 complex of Rhodobacter sphaeroides, a photosynthetic bacterium. The ability to use spectroscopic, electrochemical, and flash-induced kinetic methods allows the mutants to be analyzed for influences both on cytochrome spectra and thermodynamic properties and on the kinetics of specific electron transfer reactions. The results show that none of the 5 residues is absolutely essential. Substitution of aspartate or valine for Gly48 results in the loss of photosynthetic growth. The G48V mutant assembles a bc1 complex, but with modified cytochromes bH and bL, and a dysfunctional quinone reductase (Qc) site; an alanine is tolerated at this position. Possibly, a small residue is important here for heme packing. Gln58 and Ser102 are the only highly conserved polar residues predicted to be within the transmembrane spans, apart from the histidines which are heme axial ligands. Neither Gln58 nor Ser102 is essential for assembly or function of the bc1 complex, although substitution of other amino acids in these positions does cause subtle, but measurable changes. Phe104 lies midway between the axial ligands to cytochromes bL and bH and can be modeled to project in the space separating the two hemes. Replacement of this highly conserved aromatic residue by isoleucine has no measurable influence on the rate of electron transfer through the cytochrome b chain containing the two hemes. Finally, Pro202 is a totally conserved proline which is in the middle of transmembrane helix D, in between the 2 histidines which provide ligands to the hemes. No major inhibition of electron transfer resulted from replacing this proline by a leucine, although subtle changes in spectra of the b cytochromes and their electrochemical properties were noted.
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PMID:Examination of the functional roles of 5 highly conserved residues in the cytochrome b subunit of the bc1 complex of Rhodobacter sphaeroides. 131 21

The 45 kDa diphenylene iodonium-binding flavoprotein of the human neutrophil superoxide-generating oxidase has been purified by affinity chromatography. The polypeptide was eluted from Blue Memsep or 2',5'-ADP-agarose columns with either NADP or low concentrations of the specific inhibitor diphenylene iodonium. The purified protein was shown to bind FAD at a ratio of 1.09 mol of FAD/mol of protein. The reconstituted flavoprotein had a fluorescence spectrum similar, but not identical, to that of free FAD. It had an isoelectric point of approx. 4.0. The reconstituted flavoprotein displayed no diaphorase activity towards a range of artificial electron acceptors. Polyclonal antibodies raised against the pure protein inhibited superoxide generation by solubilized oxidase in a dose-dependent manner, and inhibited superoxide generation when incubated with either cytosol or membrane fractions in a reconstituted system. These antibodies precipitated the 45 kDa polypeptide together with a haem-containing 23 kDa protein thought to be the small subunit of cytochrome b-245. Antibodies raised against cytochrome P-450 reductase also precipitated these two polypeptides. These results are consistent with the 45 kDa polypeptide being the flavoprotein of the neutrophil superoxide-generating oxidase.
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PMID:Purification and some properties of the 45 kDa diphenylene iodonium-binding flavoprotein of neutrophil NADPH oxidase. 215 84

Isolated intact chloroplasts are able to desaturate fatty acids in newly synthesized monogalactosyl diacylglycerol. By analogy with other systems, this desaturation might be expected to involve electron carriers. The effects of electron transport inhibitors on chloroplast lipid-linked desaturation were therefore investigated. Because desaturation occurs in the dark and is not inhibited by compounds specifically blocking photosystem II, it appeared that the photosystems themselves did not participate. Several compounds that prevent enzymatic reoxidation of plastoquinol in thylakoid membranes at the Qz site or withdraw electrons from this lipophilic electron carrier inhibited desaturation in the dark. This inhibition could not be reversed by adding chemicals that donate electrons to photosystem I, indicating that carriers past the cytochrome b/f complex were not involved. Inhibitors of cyclic electron transport interfered with desaturation only at rather high concentrations or not at all. Additional compounds that block the reduction of quinones were slightly inhibitory. Dithioerythritol and KCN also inhibited desaturation, although their exact mode of action is unknown. Dinitrophenyl-iodonitrothymol (DNP-INT), stigmatellin, and myxothiazol did not block desaturation at concentrations that inhibited photosynthetic electron flow through the Qz site very efficiently. Therefore, these results argue against an involvement of the Qz site in desaturation. Accordingly, the inhibition by the other compounds seemingly interfering at the same site as well as that by electron acceptors could be due to interference at a different redox step in desaturation. In vitro these compounds function also as electron acceptors in diaphorase reactions catalyzed by ferredoxin:NADP oxidoreductase.
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PMID:Interference of electron transport inhibitors with desaturation of monogalactosyl diacylglycerol in intact chloroplasts. 265 Jun 25

The cytochrome b/c1 complex is an ubiquitous energy transducing enzyme, part of the electron transport chain of prokaryotes, mitochondria, and chloroplasts (b6/f). In the ancient purple photosynthetic bacteria, the b/c1 complex occupies a central metabolic role, being part of their photosynthetic and respiratory electron transport chain. In Rhodobacter the three subunits of the b/c1 complex are FeS protein, cytochrome b, and cytochrome c1, and they are encoded by a constitutively expressed operon named fbc. The organization of the genes for the cytochrome b/c1 complex, the modality of transcription, and the biogenesis of the encoded polypeptides will be described. The Rhodobacter species used to isolate the fbc genes, previously reported as R. sphaeroides was identified as R. capsulatus. Further biochemical characterization of the prokaryotic b/c1 complex indicated that the three polypeptides encoded by the fbc operon comprise the entire catalytic structure: ubiquinol-cytochrome-c reductase. The amino acid sequences of the three b/c1 subunits from the photosynthetic bacterium Rhodobacter capsulatus were compared with the corresponding sequences from yeast mitochondria and spinach chloroplasts. The high homology found between the sequences of all three redox polypeptides from R. capsulatus and yeast mitochondria (cytochrome b 41%, FeS protein 46%, cytochrome c1 31%) provided further evidence that mitochondria arose from the phylogenetic line of purple bacteria. The structure of cytochrome b also exhibited considerable homology to chloroplast cytochrome b6 plus subunit IV (26%). The amino acid sequence of the Rieske FeS protein from R. capsulatus and chloroplasts were found to be conserved only in the C-terminal part (14% total identity), whereas the homology between cytochrome c1 and cytochrome f is very weak (12%), despite similar topology of the two polypeptides. Analysis of the homology suggested that the catalytic sites quinol oxidase (Q0) and quinone reductase (Qi) arose monophonetically, whereas cytochrome c and plastocyanin reductase sites are not homologous and could derive from diverse ancestral genes by convergent evolution.
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PMID:Organization and structure of the genes for the cytochrome b/c1 complex in purple photosynthetic bacteria. A phylogenetic study describing the homology of the b/c1 subunits between prokaryotes, mitochondria, and chloroplasts. 283 Nov 86

The complex between ferredoxin-NADP+ oxidoreductase and its proposed membrane-binding protein (Vallejos, R. H., Ceccarelli, E., and Chan, R. (1984) J. Biol. Chem. 259, 8048-8051) was isolated from spinach thylakoids and compared with isolated cytochrome b/f complex containing associated ferredoxin NADP+ oxidoreductase (Clark, R. D., and Hind, G. (1983) J. Biol. Chem. 258, 10348-10354). There was no immunological cross-reactivity between the 17.5-kDa binding protein and an antiserum raised against the 17-kDa polypeptide of the cytochrome complex. Association of ferredoxin-NADP+ oxidoreductase with the binding protein or with the thylakoid membrane gave an allotopic shift in the pH profile of diaphorase activity, as compared to the free enzyme. This effect was not seen in enzyme associated with the cytochrome b/f complex. Identification of the 17.5-kDa binding protein as the 17-kDa component of the cytochrome b/f complex is ruled out by these results.
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PMID:The ferredoxin-NADP+ oxidoreductase-binding protein is not the 17-kDa component of the cytochrome b/f complex. 390 86

Bernofsky, Carl (The University of Kansas, Kansas City), and Russell C. Mills. Diaphorases from Aerobacter aerogenes. J. Bacteriol. 92:1404-1414. 1966.-Five enzymes which catalyze the reduction of 2,6-dichlorophenol-indophenol by reduced nicotinamide adenine dinucleotide (NADH(2)) have been separated from sonic extracts of Aerobacter aerogenes B199 by diethylaminoethyl (DEAE) cellulose chromatography. Three major chromatographic fractions (enzymes I, II, and III) account for most of the activity in the extract. Of the two minor fractions, one is associated with cytochrome b(1). The other is extremely labile, and was not studied further. The chromatographed diaphorases appear to have a specific requirement for flavin mononucleotide. They are also readily inactivated by dilution; however, this can be prevented by a combination of phosphate buffer, bovine serum albumin, and flavin mononucleotide. The different enzymes are clearly distinguishable by their activities with NADH(2) and reduced nicotinamide adenine dinucleotide phosphate (NADPH(2)) in the presence of various electron acceptors (2,6-dichlorophenol-indophenol, ferricyanide, menadione, and cytochrome c), and by their responses to inhibitors (amobarbital, antimycin A, Atabrine, p-chloromercuribenzenesulfonate, dicumarol, and 2,4-dinitrophenol). With 2,6-dichlorophenol-indophenol as acceptor, enzymes I, II, and III have comparable activities with either NADH(2) or NADPH(2). With menadione and ferricyanide as acceptors, enzymes II and III exhibit very high, NADH(2)-specific activities. When cytochrome c is the acceptor, however, enzyme III shows greater activity with NADPH(2) as the electron donor. Ferricyanide is the most active acceptor for the cytochrome b(1)-containing fraction. Coenzyme Q(6) does not appear to serve as an acceptor. All the diaphorases, with the exception of that in the cytochrome b(1)-containing fraction, are inhibited by p-chloromercuribenzenesulfonate. Amobarbital is relatively ineffective and inhibits only the indophenol reductase activity of enzyme I. The menadione reductase activity of enzymes I, and II, and the diaphorases in the cytochrome b(1)-containing fraction are strongly inhibited by antimycin A, 2,4-dinitrophenol, dicumarol, and Atabrine. However, the menadione reductase activity of enzyme III is affected only by the last three of these inhibitors. The diaphorases in sonic-treated extracts do not appear to be associated with a particulate fraction.
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PMID:Diaphorases from Aerobacter aerogenes. 592 71

NADPH-dependent O2- -generating activity was extracted and partially purified from guinea pig polymorphonuclear leukocytes. The most active preparation generated 202.8 nmol O2- min/min per mg protein. This activity was 30-fold higher than that of extracts from resting cells, indicating that the activated state of the oxidase was retained after solubilization. The solubilization and purification of the enzyme activity were followed by a parallel solubilization and purification of cytochrome b. Spectroscopic studies showed that solubilized cytochrome b has an Em of -245 mV and binds CO to about 30%. Cytochrome b was reduced by NADPH in anaerobiosis at a low rate and was rapidly reoxidized by air. A correlation was found between the inhibition of O2- formation caused by the SH reagent p-chloromercuribenzoate and the alterations induced by this compound on the Em of cytochrome b. These observations strongly support the participation of cytochrome b in the catalytic activity of the solubilized NADPH oxidase. The enzyme preparations contained FAD, which was found to be associated both with NADPH oxidase and with diaphorase activities. The fraction with the highest O2- forming activity contained FAD and cytochrome b in a ratio of about 0.5:1. The participation of FAD in the electron transport from NADPH to O2 is supported also by the inhibitory effect exerted by quinacrine on O2- formation.
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PMID:The cytochrome b and flavin content and properties of the O2- -forming NADPH oxidase solubilized from activated neutrophils. 687 Dec 31

Genetic analysis of a patient with the variant cytochrome b-245-positive form of chronic granulomatous disease revealed a missense mutation resulting in a Arg54-->Ser substitution in the gp91phox subunit of cytochrome b-245. As a consequence, although no O2- is made, NADPH oxidase-associated FAD accepts electrons from NADPH in the cell-free activation system and becomes reduced. The reduced flavin exhibits normal levels of iodonitrotetrazolium violet diaphorase activity, and the patient's neutrophils exhibit high levels of intracellular oxidant production and show a low level of NBT staining in the NBT slide test. Thus, this mutation appears to render the heme center of NADPH oxidase present but nonfunctional, while leaving the flavin center fully functional.
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PMID:A variant X-linked chronic granulomatous disease patient (X91+) with partially functional cytochrome b. 771 25

2-n-Heptyl 4-hydroxyquinoline-N-oxide (HOQNO) inhibits the succinate:quinone oxidoreductase activity of isolated and membrane-bound succinate:menaquinone oxidoreductase of B. subtilis. The inhibition pattern resembles closely that observed for alpha-thenoyltrifluoroacetone and carboxins in the mitochondrial succinate:ubiquinone oxidoreductase: ca. 90% of the activity is highly sensitive to HOQNO (Ki ca. 0.2 microM for the isolated enzyme) whereas the rest 10% proves to be resistant to the inhibitor. HOQNO binding is shown to perturb the absorption spectrum of the ferrous di-heme cytochrome b of the B. subtilis succinate:quinone oxidoreductase both in the alpha and Soret bands. In addition, the inhibitor is shown to bring about a negative shift of Em of the low-potential heme b. It is suggested that HOQNO interacts with a menasemiquinone binding site near the low-potential heme and suppresses the MQ.(-)-to-MQH2 step of the quinone reductase reaction but allows partly for the MQ-to-MQ.- transition to occur; dismutation of MQ. formed in the latter reaction to MQ and MQH2 may account for the 10% of the enzyme activity insensitive to HOQNO.
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PMID:HOQNO interaction with cytochrome b in succinate:menaquinone oxidoreductase from Bacillus subtilis. 785 24

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