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Several flavoproteins and cytochromes that occur as major components in extracts of the yellow bioluminescence Y1 strain of the marine bacterium Vibrio fischeri have been purified and characterized with respect to their mass (SDS/PAGE and matrix-assisted laser-desorption/ionization MS), chromatographic properties, N-terminal sequence, and spectroscopy (absorption, fluorescence emission and anisotropy decay). The investigated proteins were as follows: yellow fluorescence protein (YFP) with bound riboflavin, FMN or 6,7-dimethyl-8-ribityllumazine; a blue fluorescence protein (BFP) with bound 6,7-dimethyl-8-ribityllumazine, riboflavin, or 6-methyl-7-oxo-8-ribityllumazine; thioredoxin reductase with FAD as ligand; and two c-type diheme cytochromes, c551 and c554. We present evidence that the riboflavin-bound YFP has an N-terminal sequence corresponding to that published for the dimeric YFP. We show that an equilibrium replacement of the riboflavin can be made with excess lumazine derivative and that lumazine-bound YFP has different bioluminescence properties to those of the lumazine protein from Photobacterium leiognathi. BFP is a different protein again, and in the bacterial lysate it occurs in multiple forms, ligated to either riboflavin, lumazine, or the 7-oxolumazine derivative. The N-terminal sequence for BFP shows similarities to those of the YFP proteins and to lumazine protein and riboflavin synthase from Photobacterium. BFP in any form has no bioluminescence or riboflavin-synthase activity. A 70-kDa fluorescent flavoprotein with FAD as ligand has an N-terminal sequence highly similar to those of thioredoxin reductases from Haemophilus influenzae and Escherichia coli. Cytochrome contaminations in previous preparations of YFP have been removed and are identified as the two c-type cytochromes c551 and c554. Both inhibit the NADH-induced bioluminescence in the reductase/luciferase system with the luciferases from P. leiognathi and V. fischeri. The N-terminal amino acid sequence of the cytochrome (c551) corresponds to a diheme cytochrome c4. The spectral properties of c554 are similar to those of other c5 cytochromes, and both c554 and c551 have absorption spectra similar to those of the respective cytochromes from the gram-negative bacteria Pseudomonas and Azotobacter.
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PMID:Purification and characterization of flavoproteins and cytochromes from the yellow bioluminescence marine bacterium Vibrio fischeri strain Y1. 918 20

Porcine recombinant dihydropyrimidine dehydrogenase was purified from Escherichia coli cells using cell disruption, ammonium sulfate fractionation, and chromatography on DEAE-cellulose and 2',5'-ADP-Sepharose. The yield was 60% with a specific activity of 14 units/mg protein. On SDS/PAGE the purified dehydrogenase exhibits a single band, indicating that no proteolytic degradation was taking place during purification. In agreement with the native enzyme, all cofactors, FMN, FAD, NADPH, and two iron-sulfur clusters, have been found. EPR spectra of the reduced dehydrogenase obtained at pH 9.5 are characteristic for two [4Fe-4S]1+ cubanes in dipolar interaction. Quantification of the observed signals indicated 0.95 spins per subunit, showing only partially reduced iron-sulfur clusters. The kinetic parameters of the porcine recombinant enzyme are very similar to those of the native enzyme. Thus, it can be concluded that the porcine recombinant enzyme behaves like the native dehydrogenase.
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PMID:Purification, characterization, and kinetics of porcine recombinant dihydropyrimidine dehydrogenase. 922 14

The gene encoding a putative NADPH:flavin oxidoreductase of the protozoan parasite Entamoeba histolytica (Eh34) was recombinantly expressed in Escherichia coli. The purified recombinant protein (recEh34) has a molecular mass of about 35 kDa upon SDS/PAGE analysis, exhibits a flavoprotein-like absorption spectrum and contains 1 mol of non-covalently bound FMN per mol of protein. RecEh34 reveals two different enzymic activities. It catalyses the NADPH-dependent reduction of oxygen to hydrogen peroxide (H2O2), as well as of disulphides such as 5,5'-dithiobis-(2-nitrobenzoic acid) (DTNB) and cystine. The disulphide reductase but not the H2O2-forming NADPH oxidase activity is inhibitable by sulphydryl-active compounds, indicating that a thiol component is part of the active site for the disulphide reductase activity, whereas for the H2O2-forming NADPH oxidase activity only the flavin is required. Compared with the recombinant protein, similar activities are present in amoebic extracts. Native Eh34 is active in a monomeric as well as in a dimeric state. In contrast to recEh34, no flavin was associated with the native protein. However, both NADPH oxidase as well as DTNB reductase activity were found to be dependent on the addition of FAD or FMN.
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PMID:Recombinant expression and biochemical characterization of an NADPH:flavin oxidoreductase from Entamoeba histolytica. 949 88

Oxalate oxidase (OXO) was chemically modified using amino acid-specific reagents. The modification reactions were monitored spectrophotometrically, to follow the progress of labeling, and catalytically, to assess the effect of labeling on the enzyme function. The enzyme does not bear arginines essential for activity, since 2,3-butanedione and cyclohexanodione, although they modify the enzyme (after chromatographic analysis), have no effect on its activity. Incubation of urea-pretreated OXO with N-acetylimidazole leads to labeling all 10 tyrosines without affecting the enzyme activity, thus suggesting that OXO does not have tyrosines essential for activity. However, OXO modification with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide followed by kinetic analysis, leads to the conclusion that the enzyme possesses one carboxylate essential for activity. When using the modifier 2,4, 6-trinitrobenzene sulfonic acid (TNBS), while 28 of the total 45 lysines are labeled within 3 h (the first 5 reacting lysines of the homopentametic enzyme are modified at a faster rate than the others), the enzyme rapidly loses 90% of its activity in the first 2 min, a period during which only one lysine is being labeled. Complete enzyme inactivation with TNBS is observed after approximately 8 min, when 5 lysines are being labeled. The modification of the first lysine also triggers the dissociation of native OXO to its subunits (after SDS-PAGE analysis), a phenomenon not observed with the other modifiers. These findings indicate that OXO bears a lysine per monomer, essential for enzyme activity. When using 5, 5-dithio-bis-(2-nitrobenzoic)acid to determine the number of disulfide bonds, in the presence of NaBH4, 10 sulfhydryls are determined, but in the absence of reducing agent, none are determined. Further, chloro-mercuribenzoate does not inactivate OXO but beta-mercaptoethanol does. Therefore, the sulfhydryls in OXO are not free but form disulfide bonds essential for activity. Furthermore, the metallo-chelating agents HgCl2 and 8-hydroxychinolin inactivate the enzyme, suggesting that barley root oxalate oxidase is a metalloenzyme. It is possible that the metal(s) are involved in the oxidative mechanism since the enzyme does not bear prosthetic groups such as FAD and FMN.
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PMID:Chemical modification of barley root oxalate oxidase shows the presence of a lysine, a carboxylate, and disulfides, essential for enzyme activity. 970 1

Nitric oxide synthase, NOS (EC.1.14.13.39), was purified from bovine pancreas over 5,500-fold with a 7.6% yield using 30% ammonium sulfate precipitation, and 2',5'-ADP-agarose and calmodulin-agarose affinity chromatography. The purified bovine pancreatic NOS (bpNOS) showed a single band on SDS-PAGE corresponding to an apparent molecular mass of 160 kDa, whereas it was 320 kDa on non-denaturating gel-filtration. This indicated a homodimeric nature of the enzyme. The specific activity of the purified bpNOS was 31.67 nmol L-citrulline fored/mtn/mg protein and apparent K(m) for L-arginine was 15.72 microM. The enzyme activity was dependent on Ca2+ and calmodulin, and to a lesser extent on NADPH, FAD and FMN. H4B was not required as a cofactor for the activity. In an inhibition experiment with L-arginine analogues, NG-nitro-L-arginine (NNA) had the most potent inhibitory effect on bpNOS, and NG, NG'-dimethyl-L-arginine (symmetric; sDMA) did not have any inhibitory effect. Immunohistochemical analysis of the bovine pancreas using brain type NOS antibody (anti-bNOS antibody) revealed that acinar cells showed strong immunoreactivity against the antibody.
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PMID:Nitric oxide synthase from bovine pancreas: purification and characterization. 987 19

Ascorbyl free-radical reductase was purified 1143-fold with an overall yield of 9.9% from the cytosolic fraction of Pleurotus ostreatus. The native enzyme had a molecular mass of 127 kDa and SDS/PAGE revealed that the enzyme consists of two subunits, each with a molecular mass of 62 kDa. The enzyme utilized only NADH as an electron donor. The enzyme was highly specific for ascorbyl free radical as an electron acceptor and capable of catalysing the reduction of ferricyanide and 2,6-dichloroindophenol as artificial electron acceptors. The apparent K(m) values of the enzyme towards NADH and ascorbyl free radical were 35+/-0.22 and 2.1+/-0.03 microM, respectively. The catalytic mechanism of this enzyme is of Ping Pong type. The enzyme contained FMN as a prosthetic group and showed the characteristic absorption spectrum ascribed to the charge-transfer interaction of thiolate anion with FMN. The enzyme contained eight cysteine residues per monomer and was inactivated more rapidly by mercurials than by thiol-alkylating reagents. Kinetic analysis of the inactivation process revealed that the enzyme had 1 mol of thiol group/mol of subunit in the active site with a pK(a) of 6.9. The modification of the thiol group of the enzyme caused the loss of charge-transfer absorbance centred at 540 nm and blocked the electron-transfer process from NADH to FMN. The modification of lysine, arginine and histidine residues led to the loss of its activity. Unlike the active enzyme, the fluorescence quenching of NADH was not observed in the lysine-modified enzyme, which implies that lysine residues can participate in the interaction with NADH.
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PMID:Spectral characterization and chemical modification of FMN-containing ascorbyl free-radical reductase from Pleurotus ostreatus. 1041 41

Archaeoglobus fulgidus, a hyperthermophilic sulfate-reducing Archaeon, contains high Fe(3+)-EDTA reductase activity in its soluble protein fraction. The corresponding enzyme, which constitutes about 0.75% of the soluble protein, was purified 175-fold to homogeneity. Based on SDS-polyacrylamide gel electrophoresis, the ferric reductase consists of a single subunit with a M(r) of 18,000. The M(r) of the native enzyme was determined by size exclusion chromatography to be 40,000 suggesting that the native ferric reductase is a homodimer. The enzyme uses both NADH and NADPH as electron donors to reduce Fe(3+)-EDTA. Other Fe(3+) complexes and dichlorophenolindophenol serve as alternative electron acceptors, but uncomplexed Fe(3+) is not utilized. The purified enzyme strictly requires FMN or FAD as a catalytic intermediate for Fe(3+) reduction. Ferric reductase also reduces FMN and FAD, but not riboflavin, with NAD(P)H which classifies the enzyme as a NAD(P)H:flavin oxidoreductase. The enzyme exhibits a temperature optimum of 88 degrees C. When incubated at 85 degrees C, the enzyme activity half-life was 2 h. N-terminal sequence analysis of the purified ferric reductase resulted in the identification of the hypothetical gene, AF0830, of the A. fulgidus genomic sequence. The A. fulgidus ferric reductase shares amino acid sequence similarity with a family of NAD(P)H:FMN oxidoreductases but not with any ferric reductases suggesting that the A. fulgidus ferric reductase is a novel enzyme.
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PMID:Identification and characterization of a novel ferric reductase from the hyperthermophilic Archaeon Archaeoglobus fulgidus. 1059 77

Methanosphaera stadtmanae (DSM 3091) is a methanogen that requires H2 and CH3OH for methanogenesis. The organism does not possess an F420-dependent hydrogenase and only low levels of F420. It does however possess NADP+:F420 oxidoreductase activity. The NADP+:F420 oxidoreductase, the enzyme which catalyses the electron transfer between NADP+ and F420 in this organism, was purified and characterized. NAD+, NADH, FMN, and FAD could not be used as electron acceptors. Optimal pH for F420 reduction was 6.0, and 8.5 for NADP+ reduction. During the purification process, it was noted that precipitation with (NH4)2SO4 increased total activity 16-fold but reduced the stability of the enzyme. However, recombination of cell-free extracts with resuspended 65-90% (NH4)2SO4 pellet returned activity to near cell-free extract levels. Neither high salt or protease inhibitors were effective in stabilizing the activity of the partially purified enzyme. The purified enzyme from M. stadtmanae possessed a molecular weight of 148 kDa as determined by gel filtration chromatography and native-PAGE, consisting of alpha, beta, and gamma subunits of 60, 50, and 45 kDa, respectively, using SDS-PAGE. The Km values were 370 microM for NADP+, 142 microM for NADPH, 62.5 microM for F420, and 7.7 microM for F420H2. These values were different from the Km values observed in the cell-free extract.
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PMID:Purification of the NADP+:F420 oxidoreductase of Methanosphaera stadtmanae. 1110 87

A nitroreductase with distinct properties that can activate the prodrug 5-aziridinyl-2,4-dinitrobenzamide (CB 1954) was isolated from Bacillus amyloliquefaciens. The encoding gene was identified as a homologue of the ywrO of Bacillus subtilis, and was obtained as a PCR product by reverse genetics, cloned and the entire nucleotide sequence determined. The gene was found to reside between homologues of the B. subtilis alsD and yswB genes; however, the ywrO and yswB genes of B. amyloliquefaciens were not separated by a fourth gene, ywsA. The B. amyloliquefaciens ywrO gene was overexpressed, the recombinant protein purified and its properties were compared with those of two CB 1954-activating enzymes, Escherichia coli B nitroreductase (NTR) and Walker DT-diaphorase (DTD). In common with these enzymes menadione was an electron acceptor (K(m) 3 microM) and activity with this substrate was inhibited by the presence of dicoumarol (K(i) 1.0 microM). In contrast, YwrO showed a marked preference for NADPH as a cofactor (K(m) 40 microM) and therefore could not be classified as a DTD (EC 1.6.99.2). The flavin FMN was an acceptor with high affinity. B. amyloliquefaciens YwrO was shown to be a flavoprotein with a monomeric molecular mass of 21.5 kDa by calculation and SDS-PAGE. The cytotoxic 4-hydroxylamine derivative was the single CB 1954 reduction product, but B. amyloliquefaciens YwrO was inactive with the bischloroethyl analogue of CB 1954, SN 23862. In both of these properties B. amyloliquefaciens YwrO more closely resembles DTD than NTR. Its K(m) for CB 1954 was lower than that of NTR (617 microM compared to 862 microM). Enhanced in vitro cytotoxicity of CB 1954 was demonstrated on incubation of V79 cells with prodrug, NADPH and B. amyloliquefaciens YwrO. The work has led to the identification of a previously unknown nitroreductase, B. amyloliquefaciens YwrO, with distinct properties which will aid the rational selection of appropriate genes for applications in directed enzyme prodrug therapy (DEPT).
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PMID:Bacillus amyloliquefaciens orthologue of Bacillus subtilis ywrO encodes a nitroreductase enzyme which activates the prodrug CB 1954. 1178 22

A cDNA encoding cytochrome P450 oxidoreductase (CPR) from the lignin-degrading basidiomycete Coriolus versicolor was identified using RT-PCR. The full-length cDNA consisted of 2,484 nucleotides with a poly(A) tail, and contained an open reading frame. The G+C content of the cDNA isolated was 60%. A deduced protein contained 730 amino acid residues with a calculated molecular weight of 80.7 kDa. The conserved amino acid residues involved in functional domains such as FAD-, FMN-, and NADPH-binding domains, were all found in the deduced protein. A phylogenetic analysis demonstrated that C. versicolor CPR is significantly similar to CPR of the basidiomycete Phanerochaete chrysosporium and that they share the same major branch in the fungal cluster. A recombinant CPR protein was expressed using a pET/ Escherichia coli system. The recombinant CPR protein migrated at 81 kDa on SDS polyacrylamide gel electrophoresis. It exhibited an NADPH-dependent cytochrome c reducing activity.
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PMID:Identification and heterologous expression of the cytochrome P450 oxidoreductase from the white-rot basidiomycete Coriolus versicolor. 1222 21

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