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:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytochrome b558 of pig blood neutrophils was purified from the membranes of resting cells to examine its ability to reconstitute superoxide (O2-)-forming NADPH oxidase activity in a cell-free assay system containing cytosol and fatty acid. The membrane-associated cytochrome b558 was solubilized with a detergent, n-heptyl beta-thioglucoside, and purified by DEAE-Sepharose, heparin-Sepharose, and Mono Q column chromatography. The final preparation of cytochrome containing 11.5 nmol of protoheme/mg of protein gave bands of the large and small subunits on immunoblotted gel. The cell-free system with the purified cytochrome alone as a membrane component showed little O2(-)-generating activity in the absence of exogenous FAD. However, the system showed high O2(-)-generating activity of 31.8 mol/s/mol of cytochrome b558 (52.5% of the original O2(-)-generating activity of the solubilized membranes) in the presence of a nitro blue tetrazolium (NBT) reductase fraction that was separated from the cytochrome b fraction by heparin-Sepharose chromatography. Heat treatment of the NBT reductase fraction resulted in loss of the O2(-)-generating activity in the reconstituted system. The O2(-)-forming activity of the reconstituted system was markedly decreased by removal of FAD from the NBT reductase fraction and was restored by readdition of FAD to the FAD-depleted reductase. The reconstituted system containing purified cytochrome b558 plus the NBT reductase showed approximately 100 times higher O2(-)-generating activity than a system containing rabbit liver NADPH-cytochrome P-450 reductase instead. These results suggest that both the FAD-dependent NBT reductase and cytochrome b558 are required as membrane redox components for O2(-)-forming NADPH oxidase activity. The present data are discussed in comparison with previously reported results on reconstituted systems containing added free FAD.
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PMID:Reconstitution of superoxide-forming NADPH oxidase activity with cytochrome b558 purified from porcine neutrophils. Requirement of a membrane-bound flavin enzyme for reconstitution of activity. 132 33

Trimethylamine N-oxide (TMAO) reductase was purified from an aerobic photosynthetic bacterium Roseobacter denitrificans. The enzyme was purified from cell-free extract by ammonium sulfate fractionation, DEAE ion exchange chromatography, hydrophobic chromatography, and gel filtration. The purified enzyme was composed of two identical subunits with molecular weight of 90,000, as identified by SDS-polyacrylamide gel electrophoresis, containing heme c and a molybdenum cofactor. The molecular weight of the native enzyme determined by gel filtration was 172,000. The midpoint redox potential of heme c was +200 mV at pH 7.5. Absorption maxima appeared at 418,524, and 554 nm in the reduced state and 410 nm in the oxidized state. The enzyme reduced TMAO, nicotine acid N-oxide, picoline N-oxide, hydroxylamine, and bromate, but not dimethyl sulfoxide, methionine sulfoxide, chlorate, nitrate, or thiosulfate. Cytochrome c2 served as a direct electron donor. It probably catalyzes the electron transfer from cytochrome b-c1 complex to TMAO reductase. Cytochrome c552, another soluble low-molecular-weight cytochrome of this bacterium, also donated electrons directly to TMAO reductase.
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PMID:Purification and properties of trimethylamine N-oxide reductase from aerobic photosynthetic bacterium Roseobacter denitrificans. 133 81

Denitrification and methylotrophy in Paracoccus denitrificans are discussed. The properties of the enzymes of denitrification: the nitrate-nitrite antiporter, nitrate reductase, nitrite reductase, nitric oxide reductase and nitrous oxide reductase are described. The genes for none of these proteins have yet been cloned and sequenced from P. denitrificans. A number of sequences are available for enzymes from Escherichia coli, Pseudomonas stutzeri and Pseudomonas aeruginosa. It is concluded that pathway specific c-type cytochromes are involved in denitrification. At least 40 genes are involved in denitrification. In methanol oxidation at least 20 genes are involved. In this case too pathway specific c-type cytochromes are involved. The sequence homology between the quinoproteins methanol dehydrogenase, alcoholde-hydrogenase and glucose dehydrogenase is discussed. This superfamily of proteins is believed to be derived from a common ancestor. The moxFJGI operon determines the structural components of methanol dehydrogenase and the associated c-type cytochrome. Upstream of this operon 3 regulatory proteins were found. The moxY protein shows the general features of a sensor protein and the moxX protein those of a regulatory protein. Thus a two component regulatory system is involved in both denitrification and methylotrophy. The phylogeny of prokaryotes based on 16S rRNA sequence is discussed. It is remarkable that the 16S rRNA of Thiosphaera pantotropha is identical to that of P. denitrificans. Still these bacteria show a number of differences. T. pantotropha is able to denitrify under aerobic circumstances and it shows heterotrophic nitrification. Nitrification and heterotrophic nitrification are found in species belonging to the beta-and gamma-subdivisions of purple non-sulfur bacteria. Thus the occurrence of heterotrophic nitrification in T. pantotropha, which belongs to the alpha-subdivision of purple non-sulfur bacteria is a remarkable property. Furthermore T. pantotropha contains two nitrate reductases of which the periplasmic one is supposed to be involved in aerobic denitrification. The nitrite reductase is of the Cu-type and not of the cytochrome cd1 type as in P. denitrificans. Also the cytochrome b of the Qbc complex of T. pantotropha is highly similar to its counterpart in P. denitrificans. It is hypothesized that the differences between these two organisms which both contain large megaplasmids is due to a combination of loss of genetic information and plasmid-coded properties. The distribution of a number of complex metabolic systems in eubacteria and in a number of species belonging to the alpha-group of purple non sulphur bacteria is reviewed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolic pathways in Paracoccus denitrificans and closely related bacteria in relation to the phylogeny of prokaryotes. 157 65

Nitric oxide reductase was purified from Paracoccus denitrificans very nearly to homogeneity by a simple method that involved the use of octyl glucoside to solubilize the enzyme from membranes and required a single hydroxyapatite column. The enzyme had specific activities of about 10 mumol NO reduced x min-1 x mg-1 at pH 6.5 in an amperometric assay system using phenazine methosulfate/ascorbate as the reducing agent and about 22 mumol NO reduced x min-1 x mg-1 at pH 5.0, which is the optimum pH. These values are based on average rates over kinetically complex progress curves and would be about three times greater if based on maximum rate values. The enzyme appeared to be reversibly inhibited by NOaq and to have a Km too low (probably less than or equal to 1 microM) to measure reliably by the amperometric method. The effective second-order rate constant of the enzyme lay within 1 to 2 orders of magnitude of the diffusion controlled limit. The enzyme was composed of a tight complex of two cytochromes: a cytochrome c (Mr = 17,500) and a cytochrome b (Mr = 38,000). The mole ratios of cytochrome c to cytochrome b and Mr 17,500 peptide to Mr 38,000 peptide were both about 1.7, and the heme content was about 3 mol/73,000 g (38,000 + 2(17,500)). Each subunit therefore contained only one heme group. The Mr 38,000 peptide aggregated when heated in the sample buffer used for sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In addition to the ascorbate-based activity, the enzyme showed a little NADH-NO oxidoreductase activity which was not inhibited by antimycin A. The enzyme lost activity with a half-life of about 2 days at 4 degrees C but could be preserved at -20 degrees C and in liquid nitrogen. It seemed not to be inactivated by aerobic solutions. These observations, and the recent ones by Carr and Ferguson (Carr, G.J., and Ferguson, S.J. (1990) Biochem. J. 269, 423-429) with a partially purified preparation of nitric oxide reductase, establish that the enzyme from Pa. denitrificans is a cytochrome bc complex which resembles that from Pseudomonas stutzeri (Heiss, B., Frunzke, K., and Zumft, W.G. (1989) J. Bacteriol. 171, 3288-3297). There would appear to be no functional relationship between nitric oxide reductase and a Mr = 34,000 peptide of Pa. denitrificans membranes reported previously to be present in purified preparations of a nitric oxide reductase (Hoglen, J., and Hollocher, T.C. (1989) J. Biol. Chem. 264, 7556-7563).
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PMID:Nitric oxide reductase. Purification from Paracoccus denitrificans with use of a single column and some characteristics. 164 15

The kinetic and circular dichroic properties of two yeast mutants that are resistant towards specific inhibitors of the mitochondrial cytochrome bc1 complex have been characterized. Both of these mutants have an altered cytochrome b gene in which aromatic residues are exchanged with non-polar residues in a highly conserved region of the protein. The mutant resistant to myxothiazol and mucidin that contains the substitution Phe129----Leu is not greatly affected either in its ubiquinol:cytochrome c reductase or in the spectral properties of cytochrome b. On the other hand, the mutant resistant to stigmatellin that contains the substitution Ile147----Phe shows a large decrease of the catalytic efficiency for ubiquinol and of the maximal turnover of its reductase activity. This stigmatellin mutant also shows an altered circular-dichroic spectrum of the low-potential haem of cytochrome b. This study provides biochemical and biophysical information for identifying a region in mitochondrial cytochrome b that may fulfill a crucial role in the binding of ubiquinol to the bc1 complex. The results are discussed also in terms of the structural model of cytochrome b having a core of four transmembrane helices.
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PMID:Structure/function relationships in mitochondrial cytochrome b revealed by the kinetic and circular dichroic properties of two yeast inhibitor-resistant mutants. 165 Dec 45

The steady-state kinetics of ubiquinol: cytochrome c reductase (cytochrome bc1 complex) is analyzed in this work. The graphical pattern of the titrations is clearly indicative of a ping-pong mechanism, but the two products ubiquinone and reduced cytochrome c behave competitively with their substrate and noncompetitively with the other substrate. Hence, the mechanism of the reductase is of a ping-pong two-site type. A minimal reaction scheme for the enzymatic mechanism is proposed and approximate values of its rate constants are deduced on the assumption that each substrate is in rapid equilibrium at its catalytic site. This has been substantiated by presteady-state measurements of the reduction and oxidation of cytochrome b by a short-chain homolog of ubiquinol. Values of the rate constants of the reaction scheme have been deduced from the steady-state titrations for a series of 2,3-dimethoxy-5-methyl quinols having different hydrophobic substituents in position 6 of the ring. The results provide a quantitative estimation of the specificity of the quinol catalytic site in the transmembrane portion of the bc1 complex. In particular, a reasonable correlation is found between the rate of the second-order reaction of quinols with the enzyme and their solubility in lipids.
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PMID:The kinetic mechanism of ubiquinol: cytochrome c reductase at steady state. 165 53

To investigate the protein-ubiquinone interaction in the bovine heart mitochondrial succinate-cytochrome c reductase region of the respiratory chain, three fluorine substituted ubiquinone derivatives, 2,3-dimethoxy-6-(9'-fluorodecyl)-1,4-benzoquinone (9FQ), 2-methoxy-5-trifluoromethyl-6-decyl-1,4-benzoquinone (TFQ), and 2-methoxy-5-trifluoromethyl-6-(9'-fluorodecyl)-1,4-benzoquinone (9FTFQ), were synthesized. 9FQ was synthesized by radical coupling of Q0 and bis(10-fluoroundecanoyl)peroxide. The latter was prepared by fluorination of undecylenic acid followed by thionylchloride treatment and peroxidation. TFQ was synthesized from 2,2,2-trifluoro-p-cresol by methylation, nitration, reduction, acetylation, nitration, reduction, oxidation, and radical alkylation. 9FTFQ was prepared by the radical alkylation of 2-methoxy-5-trifluoromethyl-1,4-benzoquinone with bis(10-fluoroundecanoyl)peroxide. All three fluoro-Q derivatives are active (greater than 50% the activity of 2,3-dimethoxy-5-methyl-6-decyl-1,4-benzoquinone) when used as electron acceptors for succinate-ubiquinone reductase. However, only 9FQ is active when used as an electron donor for ubiquinol-cytochrome c reductase or as an electron mediator for succinate-cytochrome c reductase. Both TFQ and 9FTFQ are competitive inhibitors for ubiquinol-cytochrome c reductase. A 19FNMR peak-broadening effect was observed for 9FQ when it was reconstituted with ubiquinone-depleted ubiquinol-cytochrome c reductase. A drastic up-field chemical shift was observed for TFQ when it was reconstituted with ubiquinone-depleted reductase. These results indicate that the binding environments of the benzoquinone ring and the alkyl side chain of the Q molecule are different. The strong up-field chemical shift for TFQ, and lack of significant chemical shift for 9FQ, suggest that the benzoquinone ring is bound near the paramagnetic cytochrome b heme.
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PMID:Protein-ubiquinone interaction in bovine heart mitochondrial succinate-cytochrome c reductase. Synthesis and biological properties of fluorine substituted ubiquinone derivatives. 165 37

Membrane-bound NADPH oxidase of pig blood neutrophils was solubilized with heptylthioglucoside in a high yield. The solubilized preparation from myristate-stimulated cells (sample S) showed high O2- generating activity, and the preparation from resting cells (sample R) had no activity, but the two samples had equal amounts of flavins and cytochrome b-558 (cyt b-558). The electron transfer reactions to exogenous cytochrome c (cyt c) or cyt b-558 in samples S and R were examined. Under anaerobic conditions, NADPH-dependent cyt c reductase activity appeared higher in sample S than in sample R, and the addition of FMN and FAD greatly enhanced the reductase activity of sample S, but not that of sample R. No marked difference between the reductase activities of samples S and R was seen with NADH. Photoreduction of the NADPH oxidase system was examined in the absence of NADPH under anaerobic conditions by monitoring the reduction rates of exogenous cyt c using a flashlight with cut-off filters between 400 and 500 nm. Cyt c reduction was much higher in sample S than in sample R on photoexcitation at about 450 nm. Photoreduction was carried out with a band-pass filter for selective irradiation at 450 nm. Marked reduction of exogenous cyt c was observed only in sample S: the small reduction of cyt c by sample R was independent of the light wavelength and was equal to the blank level. In contrast, no difference in the reduction of cyt b-558 by the two samples was found by either NADPH or photoreduction. Under aerobic conditions, no direct reduction of either cyt c or cyt b-558 was observed. These results suggest that an NADPH-cyt c reductase (a membrane-bound flavoprotein) is involved in the NADPH oxidase system of stimulated neutrophils.
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PMID:Electron transfer reactions in the NADPH oxidase system of neutrophils--involvement of an NADPH-cytochrome c reductase in the oxidase system. 165 5

The fumarate reductase from Wolinella succinogenes contains two haem groups with markedly different midpoint potentials (-20 mV and -200 mV). The enzyme is made up of three subunits, the lipophilic one of which (cytochrome b) ligates the haems. Circular dichroism (CD) spectroscopy has been applied to the reductase in order to obtain information on the structure of the haems and of their environment. This approach is integrated with amino acid sequence comparison of the cytochrome b with other quinone-reacting membrane haemoproteins for predicting the axial ligands of the haems as well as their location relative to the membrane. The following results have been obtained: (1) the CD spectra in the Soret region show exciton coupling indicating haem-haem interaction, which is particularly evident in the reduced state and disappears upon denaturation of the enzyme; (2) The apoprotein of cytochrome b is predicted to consist of five hydrophobic helices (helices A-D and cd), four of which should span the membrane. Helices A, B, C and cd contain a histidine residue each which possibly forms one of the ligands of the haems. It is proposed that haem b (-20 mV) is ligated by H44 and H93, and haem b (-200 mV) by H143 and H182.
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PMID:The structure of the dihaem cytochrome b of fumarate reductase in Wolinella succinogenes: circular dichroism and sequence analysis studies. 200 80

Under anaerobic circumstances in the presence of nitrate Paracoccus denitrificans is able to denitrify. The properties of the reductases involved in nitrate reductase, nitrite reductase, nitric oxide reductase, and nitrous oxide reductase are described. For that purpose not only the properties of the enzymes of P. denitrificans are considered but also those from Escherichia coli, Pseudomonas aeruginosa, and Pseudomonas stutzeri. Nitrate reductase consists of three subunits: the alpha subunit contains the molybdenum cofactor, the beta subunit contains the iron sulfur clusters, and the gamma subunit is a special cytochrome b. Nitrate is reduced at the cytoplasmic side of the membrane and evidence for the presence of a nitrate-nitrite antiporter is presented. Electron flow is from ubiquinol via the specific cytochrome b to the nitrate reductase. Nitrite reductase (which is identical to cytochrome cd1) and nitrous oxide reductase are periplasmic proteins. Nitric oxide reductase is a membrane-bound enzyme. The bc1 complex is involved in electron flow to these reductases and the whole reaction takes place at the periplasmic side of the membrane. It is now firmly established that NO is an obligatory intermediate between nitrite and nitrous oxide. Nitrous oxide reductase is a multi-copper protein. A large number of genes is involved in the acquisition of molybdenum and copper, the formation of the molybdenum cofactor, and the insertion of the metals. It is estimated that at least 40 genes are involved in the process of denitrification. The control of the expression of these genes in P. denitrificans is totally unknown. As an example of such complex regulatory systems the function of the fnr, narX, and narL gene products in the expression of nitrate reductase in E. coli is described. The control of the effects of oxygen on the reduction of nitrate, nitrite, and nitrous oxide are discussed. Oxygen inhibits reduction of nitrate by prevention of nitrate uptake in the cell. In the case of nitrite and nitrous oxide a competition between reductases and oxidases for a limited supply of electrons from primary dehydrogenases seems to play an important role. Under some circumstances NO formed from nitrite may inhibit oxidases, resulting in a redistribution of electron flow from oxygen to nitrite. P. denitrificans contains three main oxidases: cytochrome aa3, cytochrome o, and cytochrome co. Cytochrome o is proton translocating and receives its electrons from ubiquinol. Some properties of cytochrome co, which receives its electrons from cytochrome c, are reported.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolic regulation including anaerobic metabolism in Paracoccus denitrificans. 205 Jun 53


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