UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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A flavoprotein catalyzing the reduction of cytochrome c by NADPH was solubilized and purified from microsomes of yeast grown anaerobically. The cytochrome c reductase had an apparent molecular weight of 70,000 daltons and contained one mole each of FAD and FMN per mole of enzyme. The reductase could reduce some redox dyes as well as cytochrome c, but could not catalyze the reduction of cytochrome b5. The reductase preparation also catalyzed the oxidation of NADPH with molecular oxygen in the presence of a catalytic amount of 2-methyl-1,4-naphthoquinone (menadione). The Michaelis constants of the reductase for NADPH and cytochrome c were determined to be 32.4 and 3.4 micron M, respectively, and the optimal pH for cytochrome c reduction was 7.8 to 8.0. It was concluded that yeast NADPH-cytochrome c reductase is in many respects similar to the liver microsomal reductase which acts as an NADPH-cytochrome P-450 reductase [EC 1.6.2.4].
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PMID:Studies on the microsomal electron-transport system of anaerobically grown yeast. V. Purification and characterization of NADPH-cytochrome c reductase. 1 31

NAD(P)H: FMN oxidoreductase (flavin reductase) couples in vitro to bacterial luciferase. This reductase, which is also postulated to supply reduced flavin mononucleotide in vivo as a substrate for the bioluminescent reaction, has been partially purified and characterized from two species of luminous bacterial. From Photobacterium fischeri the enzyme has a M. W. determined by Sephadex gel filtration, of 43,000 and may have a subunit structure. The turnover number at 20 degrees C, based on a purity estimate of 20 percent, is 1.7 times 10-4 moles of NADH oxidized per min per mole of reductase. The reductase isolated from Beneckea harveyi has an apparent molecular weight of 23,000; its purity was too low to permit estimation of specific activity. Using a spectrophotometric assay at 340 nm with the P. fischeri reductase, both NADH (Km, 8 times 10-5 M) and NADPH (Km, 4 times 10-4 M) were enzymatically oxidized, the Vmax with NADH being approximately twice that of NADPH. Of the flavins tested in this assay, only FMN (Km, 7.3 times 10-5 M) and FAD (Km, 1.4 times 10-4 M) were effective, FMN having a Vmax three times that of FAD. In the coupled assay, i.e., measuring the bioluminescence intensity of the reaction with added luciferase, the optimum FMN concentration was nearly 100 times less than in the spectrophotometric assay. The studies reported suggest the existence of a functional reductase-luciferase complex.
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PMID:Flavin mononucleotide reductase of luminous bacteria. 4 4

A dihydrodipicolinate reductase containing flavin was purified from sporulating Bacillus subtilis PCI 219. The purified enzyme appeared homogeneous by dise gel electrophoresis. Its molecular weight was estimated as 74,000 by gel filtration on Sephadex G-200, and as 18,500 by electrophoresis on sodium dodecylsulfate polyacrylamid gel. These results suggest that the enzyme is composed of four subunits. The prosthetic group was identified as FMN, and one mole of the enzyme contained two moles of FMN. Both NADPH and NADH acted as coenzyme, though NADH was less effective. The enzyme also exhibited diaphorase activity. The pH optimum was 6.1. The enzyme was inhibited by dipicolinate but not by lysine or alpha, epsilon-diaminopimelate.
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PMID:A new flavin enzyme catalyzing the reduction of dihydrodipicolinate in sporulating Bacillus subtilis I. Purification and properties. 23 91

The isolation method and some peoperties of purple sulphur bacteria (Thiocapsa roseopersicina strain BBS) hydrogenase are described Hydrogenase molecular weight is found to be 66000; it contains 3.7 moles of S2- and 3.9 moles of Fe2+ per one mole of the enzyme;pI=4.2. The enzyme absorption spectrum has the maximum at 400-412 nm which is characteristic of proteins containing non-haem iron. Hydrogenase is suggested to consist pf 4 subunits of two types: with molar weight 27000 and 6000. Unlike other hydrogenases, this enzyme is rather resistant to O2 and is more thermostable: the inactivation of the enzyme was observed at the temperature above 80 degrees C; Hydrogenase preparation catalyses D2-H2O exchange reaction, H2 evolution from the reduced methyl viologene (MV) and H2 absorption in the presense of MV or benzylviologene but not in the presense of NAD(P), FAD, FMN, azocarmine, methylene blue and ferricyanide.
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PMID:[Purification and properties of hydrogenase from phototrophic bacterium Thiocapsa roseopersicina]. 102 87

The amino acid composition of flavokinase has been determined to contain five arginyl and four lysyl residues per mole. Flavokinase is inactivated by arginine-specific reagents. The substrates riboflavin and especially ATP impede inactivation, whereas neither of the products, ADP or FMN, protect. Among lysine-modifying reagents, only 2,4,6-trinitrobenzene sulfonic acid caused inactivation of the enzyme, especially under conditions for denaturation. In this case it was noted that the activity was enhanced at the early stage of the reaction but this enhancement was repressed in the presence of ATP along with the significant protection of activity. Results with modification of arginyl residues and incorporation of 14C-phenylglyoxal suggest that one such residue is involved in the substrate-binding site. The involvement of lysyl residues in catalytic function remains unclear, but seems less critical.
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PMID:Modification of arginyl and lysyl residues of flavokinase from rat small intestine. 133 80

Microsomal P450s catalyze the monooxygenation of a large variety of hydrophobic compounds, including drugs, steroids, carcinogens, and fatty acids. The interaction of microsomal P450s with their electron transfer partner, NADPH-P450 reductase, during the transfer of electrons from NADPH to P450, for oxygen activation, may be important in regulating this enzyme system. Highly purified Bacillus megaterium P450BM-3 is catalytically self-sufficient and contains both the reductase and P450 domains on a single polypeptide chain of approximately 120,000 Da. The two domains of P450BM-3 appear to be analogous in their function and homologous in their sequence to the microsomal P450 system components. FAD, FMN, and heme residues are present in equimolar amounts in purified P450BM-3 and, therefore, this protein could potentially accept five electron equivalents per mole of enzyme during a reductive titration. The titration of P450BM-3 with sodium dithionite under a carbon monoxide atmosphere was complete with the addition of the expected five electron equivalents. The intermediate spectra indicate that the heme iron is reduced first, followed by the flavin residues. Titration of the protein with the physiological reductant, NADPH, also required approximately five electron equivalents when the reaction was performed under an atmosphere of carbon monoxide. Under an atmosphere of argon and in the absence of carbon monoxide, one of the flavin groups was reduced prior to the reduction of the heme group. The titration behavior of P450BM-3 with NADPH was surprising because no spectral changes characteristic of flavin semiquinone intermediates were observed. The results of the titration with NADPH can only be explained if (a) there was "rapid" intermolecular electron transfer between P450BM-3 molecules, (b) there is no kinetic barrier to the reduction of P450 by the one-electron-reduced form of the reductase, and (c) the "air-stable semiquinone" form of the reductase does not accumulate in this complex multidomain enzyme.
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PMID:P450BM-3: reduction by NADPH and sodium dithionite. 156 20

Anaerobic cytochrome c552 was purified to electrophoretic homogeneity by ion-exchange chromatography and gel filtration from a mutant of Escherichia coli K 12 that synthesizes an increased amount of this pigment. Several molecular and enzymatic properties of the cytochrome were investigated. Its relative molecular mass was determined to be 69 000 by sodium dodecyl sulfate/polyacrylamide gel electrophoresis. It was found to be an acidic protein that existed in the monomeric form in the native state. From its heme and iron contents, it was concluded to be a hexaheme protein containing six moles of heme c/mole protein. The amino-acid composition and other properties of the purified cytochrome c552 indicated its similarity to Desulfovibrio desulfuricans hexaheme cytochrome. The cytochrome c552 showed nitrite and hydroxylamine reductase activities with benzyl viologen as an artificial electron donor. It catalyzed the reduction of nitrite to ammonia in a six-electron transfer. FMN and FAD also served as electron donors for the nitrite reduction. The apparent Michaelis constants for nitrite and hydroxylamine were 110 microM and 18 mM, respectively. The nitrite reductase activity of the cytochrome c552 was inhibited effectively by cupric ion and cyanide.
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PMID:Purification of a hexaheme cytochrome c552 from Escherichia coli K 12 and its properties as a nitrite reductase. 300 98

L-Amino acid oxidase (EC.1.4.3.2) was purified to homogeneity via four steps consisting of Sephadex G-100, CM-Toyopearl 650M, and first and second granulated hydroxyapatite column chromatographies. The mol. wt of the enzyme was 140,000 when estimated by analytical gel filtration and was 70,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggesting that the enzyme is composed of two identical subunits. The enzyme has an absorption spectrum characteristic of flavoprotein, contains 2 moles of FMN per mole of enzyme and has an isoelectric point of 5.4. The enzyme oxidatively deaminated hydrophobic amino acids such as Leu, Met, Phe, and Tyr while basic amino acids except for Lys were also oxidized though at slower rates. This specificity was generally similar, with some exceptions, to that of the enzyme from Trimeresurus flavoviridis venom. For oxidative deamination of Leu, Km and maximum velocity of the enzyme were 1.17 mM and 9.9 units/mg, respectively, at pH 7.6. The activity was inhibited almost completely by heavy metal ions, some aromatic benzoates and sulfhydryl reagents but not by metal-chelating agents.
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PMID:Purification and characterization of L-amino acid oxidase from the venom of Trimeresurus mucrosquamatus (Taiwan habu snake). 318 59

Difference absorption spectroscopy as a function of pH is described as a probe to determine the pKa values of the 8 alpha-imidazole substituent in flavoenzymes containing 8 alpha-histidylflavin coenzymes. Reversible absorption difference spectra are observed in the pH range 5.5 to 8.5 when synthetic 8 alpha-imidazolyl-FMN is bound to the apoflavodoxins from Azotobacter vinelandii and from Clostridium pasterianum. The observed spectral perturbations of these two flavodoxin complexes follow a single proton ionization dependence with respective pKa values of 6.7 and 6.8. No pH-induced spectral perturbations were observed when 8 alpha-(N-CH3)-imidazolium FMN was bound to either flavodoxin. Similar approaches are described to determine the 8 alpha-imidazolyl pKa values of the 8 alpha-histidyl-FAD coenzyme of the cholesterol oxidases from Schizophyllum commune and from Gleocystidium chrysocreas. Previous work has shown the former enzyme contains an 8 alpha-N1-histidyl-FAD (W. C. Kenney et al. (1979) J. Biol. Chem. 254, 4689-4690) while experiments reported here show the latter enzyme also contains one 8 alpha-N1-histidyl-FAD per mole of enzyme. The pKa value for the 8 alpha-imidazole substituent on the flavin of S. commune cholesterol oxidase is 5.4 while that determined for the G. chrysocreas enzyme is 6.2. These results demonstrate that the pKa of the 8 alpha-imidazole substituent can be determined in enzymes containing an 8 alpha-histidylflavin, provided that the enzyme is stable in the pH range required to observe ionization. Furthermore it is shown this the pKa value can differ even on comparison of enzymes from different sources that catalyze the same reaction.
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PMID:pKa values of the 8 alpha-imidazole substituents in selected flavoenzymes containing 8 alpha-histidylflavins. 339 25

On the fifth day following inoculation into an unstirred liquid surface culture, Penicillium atrovenetum abruptly, and reproducibly, secretes large quantities (2 g/liter) of the toxic antibiotic 3-nitropropionate into the medium. Concomitantly and with the same time course, crude extracts of the fungus acquire the ability to catalyze the oxidation of 3-nitropropionate by O2. We purified this activity some 300-fold to homogeneity and find it to be a soluble, dimeric (Mr = 73,000) flavoprotein oxidase having FMN as prosthetic group with lambda max = 363 and 433 nm. The preferred substrates are propionate-3-nitronate (3-NP-2) and O2 while the reaction products are malonate semialdehyde, NO2-, NO3-, O2-., and H2O2. Of 13 nitronates tested only butyrate-4-nitronate is more than 2% as reactive as 3-NP-2. 3-NP-2 (0.1 mM) rapidly reduces E-FMN anaerobically to E-FMNH., the flavin semiquinone (t1/2 less than 5 s), but reduces E-FMNH. to the fully reduced enzyme (E-FMNH2) very slowly (t1/2 approximately 900 s). The steady state turnover number with 0.1 mM 3-NP-2 and infinite O2 is 350 s-1. Therefore, the enzyme must oscillate almost exclusively between E-FMN and E-FMNH. during aerobic turnover. (Formula: see text). The complicated and non-integral reaction stoichiometry provides further support for this free radical mechanism. Each mole of 3-NP-. generated enzymatically initiates the nonenzymatic autoxidation of at least 2.2 mol of 3-NP-2 through a free radical chain reaction. An appropriate name for the newly characterized enzyme is propionate-3-nitronate oxidase.
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PMID:Propionate-3-nitronate oxidase from Penicillium atrovenetum is a flavoprotein which initiates the autoxidation of its substrate by O2. 366 82

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