Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT00568 (ascorbate)
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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 effects of aeration during bacterial growth on the proton translocating activity of the respiratory chain of B. stearothermophilus ATCC 8005, which is stable enough for measurement of the H+/O ratio by an oxygen pulse method, were examined. For endogenous and ascorbate-N,N,N',N'-tetramethyl p-phenylene diamine (TMPD) respiration, H+/O ratios of around 6 and 2 were obtained using resting cells grown under highly aerated conditions. The values were about 4 and 0 when cells were grown under limited-air conditions. Spectrophotometric and enzyme kinetical analyses revealed that both cytochrome caa3 and pigment-432 (cytochrome cao) were acting as terminal oxidases, while cytochrome b-558 (corresponding to the "cytochrome o-type oxidase" of the thermophilic bacterium PS3 in the previous paper [Sone, N., Kutoh, E., & Sato, K. (1990) J. Biochem. 107, 597-602]) was mainly serving in the cells grown under limited-air conditions. Measurement of the pH change upon ferrocytochrome c pulse with proteoliposomes reconstituted from the membrane extract of vigorously aerated cells and that of limited-air cells suggested that both cytochrome caa3, and pigment-432 (cytochrome cao) pump protons, while cytochrome b-558 does not.
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PMID:Effects of aeration during growth of Bacillus stearothermophilus on proton pumping activity and change of terminal oxidases. 166 85

We have examined the effects of eight inhibitors of the bovine-heart mitochondrial Complex III on the catalytic activity of the analogous complex from yeast mitochondria. All eight compounds were inhibitory, with potent inhibition being obtained with antimycin, myxothiazol and UHDBT (5-N-undecyl-6-hydroxy-4,7-dioxobenzothiazole). These three inhibitors, and also funiculosin, have been further studied by characterizing their effects on the visible absorbance, magnetic circular dichroism and EPR spectra of the complex and also on the potentiometric properties of the individual metal centers present in the complex. All four inhibitors had little or no effect on either the absorbance or magnetic circular dichroism spectra. Funiculosin produced a change in the EPR lineshape of the iron-sulfur cluster; EPR spectra recorded at 12 K also revealed complete reduction of cytochrome b-562 by ascorbate. UHDBT also changed the lineshape of the iron-sulfur cluster and this change could be partially reversed by myxothiazol. Neither antimycin nor myxothiazol affected the iron-sulfur cluster and produced only small changes in the EPR absorption envelope of the b cytochromes. Both funiculosin and UHDBT raised the midpoint potential of the iron-sulfur cluster, by about 150 and 70 mV, respectively. Only UHDBT changed the potential of c1, lowering it by about 30 mV. Funiculosin raised the potential of b-562 by about 30 mV, while myxothiazol had no effect; the other two compounds produced only small changes. All four compounds had only small effects on the midpoint potential of b-566. The relative contributions of the two b cytochromes to the magnetic circular dichroism amplitudes could be changed by the addition of inhibitors, even though the absolute magnetic circular dichroism spectra of oxidized and reduced complex were unaffected.
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PMID:The interaction of yeast Complex III with some respiratory inhibitors. 298 96

Mucidin and strobilurin A, antifungal antibiotics isolated from the basidiomycetes Oudemansiella mucida and Strobiluris tenacellus, respectively, inhibit electron-transfer reactions in the cytochrome bc1 complex of the mitochondrial respiratory chain. The two compounds have identical effects on oxidation-reduction reactions of the cytochromes b and c1 in isolated succinate-cytochrome c reductase. They inhibit reduction of cytochrome c1 by succinate but do not inhibit reduction of cytochrome b. When added in combination with antimycin, either inhibitor blocks reduction of both cytochromes b and c1. Mucidin and strobilurin A differ from antimycin in that they inhibit, rather than promote, oxidant-induced reduction of cytochrome b. They also differ from antimycin in that they do not block reduction of cytochrome b by succinate when cytochrome c1 is previously reduced by ascorbate and they do not inhibit oxidation of cytochrome b by fumarate. These effects of mucidin and strobilurin A are, however, qualitatively identical with those of myxothiazol, an antibiotic that inhibits respiration by binding to cytochrome b [Von Jagow, G., Ljungdahl, P. O., Graf, P., Ohnishi, T., & Trumpower, B. L. (1984) J. Biol. Chem. 259, 6319-6326]. Mucidin and strobilurin A have identical UV and mass spectra, and they elute together on high-pressure liquid chromatography. We thus conclude that these antibiotics, although isolated from different bacteria, are structurally identical. Our results indicate that strobilurin A and mucidin inhibit electron transport at the same site as myxothiazol and not at the antimycin site, as previously reported [Subik, J., Behren, M., & Musilek, V. (1974) Biochem. Biophys. Res. Commun. 57, 17-22].
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PMID:Mucidin and strobilurin A are identical and inhibit electron transfer in the cytochrome bc1 complex of the mitochondrial respiratory chain at the same site as myxothiazol. 300 11

A cytochrome b560-d complex, a terminal oxidase in the respiratory chain of Photobacterium phosphoreum grown under aerobic conditions, was purified to near homogeneity. The purified oxidase complex is composed of equimolar amounts of two polypeptides with molecular weights of 41,000 and 54,000, as determined by gel electrophoresis in the presence of sodium dodecyl sulfate. It contains 10.2 nmol of protoheme and 22.5 nmol of iron/mg of protein. The enzyme is a "cytochrome bd-type oxidase," showing absorption peaks at 560 and 625 nm in its reduced minus oxidized difference spectrum at 77K. This oxidase combined with CO, and its CO difference spectrum at room temperature in the Soret region showed a peak at 418 nm and a trough at 434 nm. In addition, a trough at 560 nm (cytochrome b), and a trough at 620 nm and a peak at 639 nm (cytochrome d) were observed in the CO-binding spectrum. This cytochrome b560-d complex catalyzed the oxidation of ubiquinol-1 and ascorbate in the presence of N,N,N',N'-tetramethyl-p-phenylenediamine dihydrochloride or phenazine methosulfate. The oxidase activity required phospholipids and was inhibited by the respiratory inhibitors, KCN and NaN3, and the divalent cation, ZnSO4. Formation of a membrane potential by the cytochrome b560-d complex reconstituted into liposomes was observed with the fluorescent dye, 3,3'-dipropylthiodicarbocyanine iodide, on the addition of ubiquinol-1, showing that the enzyme provided a coupling site for oxidative phosphorylation.
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PMID:Purification and properties of a cytochrome b560-d complex, a terminal oxidase of the aerobic respiratory chain of Photobacterium phosphoreum. 301 68

We have investigated the oxidation of the reduced ubiquinol:cytochrome c reductase (bc1 complex) isolated from beef heart mitochondria. The oxidation of cytochrome c1 by both potassium ferricyanide and cytochrome c in the ascorbate-reduced bc1 complex is not a first-order process. This is taken as evidence that cytochrome c1 is in rapid equilibrium with the Rieske iron-sulphur center. Among the several inhibitors tested, only 5-n-undecyl-6-hydroxy-4,7-dioxobenzothiazole and stigmatellin are seen to affect this redox equilibrium between the high-potential centers of the beef heart bc1 complex. The oxidation of cytochrome b by cytochrome c in both the succinate-reduced and the fully reduced bc1 complex is blocked by all the inhibitors tested. This inhibition occurs simultaneously with an acceleration in the oxidation of cytochrome c1, even after extraction of the endogenous ubiquinone which is present in the bc1 preparation. Almost complete extraction of ubiquinone from the bc1 complex has no effect upon the rapid phase of cytochrome b oxidation, nor does it alter the inhibition of cytochrome b oxidation by the various inhibitors. The oxidation of cytochrome b by exogenous ubiquinones is stimulated by myxothiazol and partially inhibited by antimycin. However, the addition of both these inhibitors together completely blocks the oxidation of cytochrome b by quinones. In contrast, the simultaneous addition of antimycin and myxothiazol has no such synergistic effect upon the oxidation of cytochrome b by cytochrome c. Our data show that intramolecular electron transfer from cytochrome(s) b to the Rieske iron-sulphur center can take place in the bc1 complex without involvement of endogenous ubiquinone-10. This electron pathway is sensitive to all the inhibitors of the enzyme.
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PMID:On the oxidation pathways of the mitochondrial bc1 complex from beef heart. Effects of various inhibitors. 302 79

Bacillus subtilis cytoplasmic membranes contain several cytochromes which are linked to the respiratory chain. At least six different cytochromes have been separated and identified by ammonium sulphate fractionation and ion-exchange chromatography. They include two terminal oxidases with CO-binding properties and cyanide sensitivity. One of these is an aa3-type cytochrome c oxidase which has characteristic absorption maxima in the reduced-oxidized difference spectrum at 601 nm in the alpha-band and at 443 nm in the Soret band regions. In the alpha-band two separate electron transitions with Em = +205 mV and Em = +335 mV can be discriminated by redox potentiometric titration. The other CO-binding cytochrome c oxidase contains two cytochrome b components with alpha-band maxima at 556 nm and 559 nm. Cytochrome b556 can be reduced by ascorbate and has an Em + +215 mV, whereas cytochrome b559 has an Em = +140 mV. Furthermore a complex consisting of a cytochrome b564 (Em = +140 mV) associated with a cytochrome c554 (Em = +250 mV) was found. This cytochrome c554, which can be reduced by ascorbate, appears to have an asymmetrical alpha-peak and stains for heme-catalyzed peroxidase activity on SDS-containing polyacrylamide gels. A protein with a molecular mass of about 30 kDa is responsible for this activity. A cytochrome b559 (Em = +65 mV) appears to be an essential part of succinate dehydrogenase. Finally a cytochrome c550 component with an apparent mid-point potential of Em = +195 mV has been detected.
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PMID:Spectral and potentiometric analysis of cytochromes from Bacillus subtilis. 311 50

The effects of DDT on the energy-related functions of rat-liver mitochondria were examined. ADP-stimulated respiration was much more sensitive to inhibition by DDT than was uncoupler-stimulated respiration when succinate or ascorbate/TMPD was used as the substrate. Ca2+ uptake driven by ATP hydrolysis was inhibited by DDT. These results indicate that DDT inhibits ATPase itself. In addition, DDT blocked succinate dehydrogenase and the cytochrome b-c span of the electron transport chain, which also secondarily reduced ATP synthesis. The uncoupling action due to DDT was only seen at high concentrations with ascorbate/TMPD as the substrate. However, this action was masked because of the increased inhibition of the electron transport chain when the substrate was changed to succinate.
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PMID:Effects of 1,1,1-trichloro-2,2-bis-(p-chlorophenyl)ethane (DDT) on ATPase-linked functions in isolated rat-liver mitochondria. 315 37

Illumination of chromatophore preparations from Rhodopseudomonas spheroides causes the oxidation of a cytochrome c and a slight oxidation of a cytochrome b with a maximum at 560nm. When illuminated in the presence of antimycin A the oxidation of cytochrome c was more pronounced and cytochrome b(560) was reduced; the dark oxidation of cytochrome b(560) was biphasic in the presence of succinate, but not in the presence of NADH, a less effective reductant. Split-beam spectroscopy showed that, in addition to the reduction of cytochrome b(560), another pigment with maxima at 565 and 537nm. was reduced and was more rapidly oxidized in the dark than cytochrome b(560). This pigment, tentatively identified as cytochrome b(565), was also detected in spectra at 77 degrees k, after brief illumination at room temperature; the maxima at 77 degrees k were at 562 and 536nm. In the absence of antimycin A, light caused a transient reduction of cytochrome b(565) and an oxidation of cytochrome b(560). Dark oxidation of b(565) was rapid, even in the presence of antimycin A and succinate. Difference spectra, at 77 degrees k, of ascorbate-reduced minus succinate-reduced chromatophores or of anaerobic succinate-reduced minus aerobic succinate-reduced chromatophores suggested that two cytochromes c were present, with maxima at 547 and 549nm. When chromatophores frozen at 77 degrees k were illuminated both these cytochromes c were oxidized, indicating a close association with the photochemical reaction centre. A scheme involving two reaction centres is proposed to explain these results.
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PMID:Multiple light-induced reactions of cytochromes b and c in Rhodopseudomonas spheroides. 431 60

The participation of distinct formate dehydrogenases and cytochrome components in nitrate reduction by Escherichia coli was studied. The formate dehydrogenase activity present in extracts prepared from nitrate-induced cells of strain HfrH was active with various electron acceptors, including methylene blue, phenazine methosulfate, and benzyl viologen. Certain mutants which are unable to reduce nitrate had low or undetectable levels of formate dehydrogenase activity assayed with methylene blue or phenazine methosulfate as electron acceptor. Of nine such mutants, five produced gas when grown anaerobically without nitrate and possessed a benzyl viologen-linked formate dehydrogenase activity, suggesting that distinct formate dehydrogenases participate in the nitrate reductase and formic hydrogenlyase systems. The other four mutants formed little gas when grown anaerobically in the absence of nitrate and lacked the benzyl viologen-linked formate dehydrogenase as well as the methylene blue or phenazine methosulfate-linked activity. The cytochrome b(1) present in nitrate-induced cells was distinguished by its spectral properties and its genetic control from the major cytochrome b(1) components of aerobic cells and of cells grown anaerobically in the absence of nitrate. The nitrate-specific cytochrome b(1) was completely and rapidly reduced by 1 mm formate but was not reduced by 1 mm reduced nicotinamide adenine dinucleotide; ascorbate reduced only part of the cytochrome b(1) which was reduced by formate. When nitrate was added, the formate-reduced cytochrome b(1) was oxidized with biphasic kinetics, but the ascorbate-reduced cytochrome b(1) was oxidized with monophasic kinetics. The inhibitory effects of n-heptyl hydroxyquinoline-N-oxide on the oxidation of cytochrome b(1) by nitrate provided evidence that the nitrate-specific cytochrome is composed of two components which have different redox potentials but identical spectral properties. We conclude from these studies that nitrate reduction in E. coli is mediated by the sequential operation of a specific formate dehydrogenase, two specific cytochrome b(1) components, and nitrate reductase.
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PMID:Nitrate reductase complex of Escherichia coli K-12: participation of specific formate dehydrogenase and cytochrome b1 components in nitrate reduction. 490 36


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