KEGG:D02011 - FACTA Search

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Query: KEGG:D02011 (FAD)
5,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 4-en-3-oxosteroid-5 alpha-reductase from Mycobacterium smegmatis was bound biospecifically on the affinant containing an immobilized testosterone ligand. The enzyme obtained by elution with ethylene glycol and urea in a 32 fold purity has a S. A. of 8.73 X 10(-3) microM androstenedione min-1 mg-1. The coenzyme (FAD) could be separated from the immobilized enzyme substrate complex on the affinity matrix, in the presence of (NH4)2SO4 at pH 3.0. After elution of the apoenzyme 97% of the initial enzyme activity was obtained by incubation with FAD. The reactivated enzyme results in a 40-fold enrichment.
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PMID:[Steroid-transforming enzymes from microorganisms. X. Enrichment of a 4-en-3-oxosteroid-5 alpha-reductase from Mycobacterium smegmatis as well as separation and enrichment of the apoenzyme by means of affinity chromatography]. 54 59

Pyruvate oxidase from Lactobacillus plantarum is a homotetrameric flavoprotein with strong binding sites for FAD, TPP, and a divalent cation. Treatment with acid ammonium sulfate in the presence of 1.5 M KBr leads to the release of the cofactors, yielding the stable apoenzyme. In the present study, the effects of FAD, TPP, and Mn2+ on the structural properties of the apoenzyme and the reconstitution of the active holoenzyme from its constituents have been investigated. As shown by circular dichroism and fluorescence emission, as well as by Nile red binding, the secondary and tertiary structures of the apoenzyme and the holoenzyme do not exhibit marked differences. The quaternary structure is stabilized significantly in the presence of the cofactors. Size-exclusion high-performance liquid chromatography and analytical ultracentrifugation demonstrate that the holoenzyme retains its tetrameric state down to 20 micrograms/mL, whereas the apoenzyme shows stepwise tetramer-dimer-monomer dissociation, with the monomer as the major component, at a protein concentration of < 20 micrograms/mL. In the presence of divalent cations, the coenzymes FAD and TPP bind to the apoenzyme, forming the inactive binary FAD or TPP complexes. Both FAD and TPP affect the quaternary structure by shifting the equilibrium of association toward the dimer or tetramer. High FAD concentrations exert significant stabilization against urea and heat denaturation, whereas excess TPP has no effect. Reconstitution of the holoenzyme from its components yields full reactivation. The kinetic analysis reveals a compulsory sequential mechanism of cofactor binding and quaternary structure formation, with TPP binding as the first step. The binary TPP complex (in the presence of 1 mM Mn2+/TPP) is characterized by a dimer-tetramer equilibrium transition with an association constant of Ka = 2 x 10(7) M-1. The apoenzyme TPP complex dimer associates with the tetrameric holoenzyme in the presence of 10 microM FAD. This association step obeys second-order kinetics with an association rate constant k = 7.4 x 10(3) M-1 s-1 at 20 degrees C. FAD binding to the tetrameric binary TPP complex is too fast to be resolved by manual mixing.
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PMID:Stability and reconstitution of pyruvate oxidase from Lactobacillus plantarum: dissection of the stabilizing effects of coenzyme binding and subunit interaction. 130 99

Point mutations in the gene of pyruvate oxidase from Lactobacillus plantarum, with proline residue 178 changed to serine, serine 188 to asparagine, and alanine 458 to valine, as well as a combination of the three single point mutations, lead to a significant functional stabilization of the protein. The enzyme is a tetrameric flavoprotein with tightly bound cofactors, FAD, TPP, and divalent metal ions. Thus, stabilization may be achieved either at the level of tertiary or quaternary interactions, or by enhanced cofactor binding. In order to discriminate between these alternatives, unfolding, dissociation, and cofactor binding of the mutant proteins were analyzed. The point mutations do not affect the secondary and tertiary structure, as determined by circular dichroism and protein fluorescence. Similarly, the amino acid substitutions neither modulate the enzymatic properties of the mutant proteins nor do they stabilize the structural stability of the apoenzymes. This holds true for both the local and the global structure with unfolding transitions around 2.5 M and 5 M urea, respectively. On the other hand, deactivation of the holoenzyme (by urea or temperature) is significantly decreased. The most important stabilizing effect is caused by the Ala-Val exchange in the C-terminal domain of the molecule. Its contribution is close to the value observed for the triple mutant, which exhibits maximum stability, with a shift in the thermal transition of ca. 10 degrees C. The effects of the point mutations on FAD binding and subunit association are interconnected. Because FAD binding is linked to oligomerization, the stability of the mutant apoenzyme-FAD complexes is increased. Accordingly, mutants with maximum apparent FAD binding exhibit maximum stability. Analysis of the quaternary structure of the mutant enzymes in the absence and in the presence of coenzymes gives clear evidence that both improved ligand binding and subunit interactions contribute to the observed thermal stabilization.
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PMID:Characterization of the stabilizing effect of point mutations of pyruvate oxidase from Lactobacillus plantarum: protection of the native state by modulating coenzyme binding and subunit interaction. 130

A plasmid has been constructed by cloning the complete crtI gene encoding phytoene desaturase from Erwinia uredovora behind the lac Z promoter of pUC18 resulting in a reading frame for the full polypeptide with additional 9 amino acids at the N terminus. This plasmid mediated the overexpression of phytoene desaturase in transformed Escherichia coli. The overexpressed enzyme was sequestrated into inclusion bodies requiring urea treatment for solubilization. Purification to homogeneity was subsequently performed on a DEAE-cellulose column and by SDS-polyacrylamide gel electrophoresis. The purification scheme allowed the isolation of 5.3 mg of homogeneous desaturase protein from 100 ml of E. coli cell suspension. On SDS-polyacrylamide gel electrophoresis an apparent molecular mass of 56.2 kDa was determined. An antiserum raised against phytoene desaturase cross-reacted with the expressed protein and was employed to monitor the isolation steps. Upon removal of urea, desaturase activity was restored. The isolated desaturase catalyzed the conversion of 15-cis-phytoene to trans-lycopene as well as to bisdehydrolycopene. FAD was involved in desaturation, whereas NAD and NADP were inhibitory. This is the first time that a membrane-integrated carotenogenic enzyme has been purified and finally obtained in an active state.
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PMID:Expression in Escherichia coli, purification, and reactivation of the recombinant Erwinia uredovora phytoene desaturase. 140 Mar 5

Rats maintained on a tryptophan supplemented diet and exposed to U.V. radiation showed decreased concentration of ascorbic acid in serum. In the lens, a small increase in the urea-mercaptoethanol soluble fraction was observed suggesting some oxidation of P-SH groups. The decreased concentrations of lens glutathione and ascorbic acid were accompanied with increased concentration of malondialdehyde suggesting increased oxidative stress. The activities of glutathione peroxidase decreased by about 40%. Though the activity of glutathione reductase decreased by about 58%, addition of FAD in the enzyme assay system showed restoration of lost activity. Additive effect of raised serum tryptophan concentration and ultraviolet radiation in causing damage to the eye lens is suggested.
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PMID:Effects of a tryptophan supplemented diet and U.V. radiation on the rat lens. 227 28

It was found that the cytoplasm of light-grown cells of Rhodospirillum rubrum could catalyze the reduction of methyl viologen (MV) (Em, 7 = -0.44 V) by NADH and NADPH. In the present study, the enzyme capable of catalyzing MV reduction by NADH (NADH-MV reductase) was purified 1,500-fold from an extract of cells with a yield of 4.4%. The purification procedure comprised (NH4)2SO4 fractionation, and chromatographies on Sepharose CL-6B, DEAE-Sepharose CL-6B, phenyl-Sepharose CL-4B, Blue-Cellulofine, and TSK-Gel G3000SW. Two NADPH-MV reductases were separated during the purification. The NADH-MV reductase obtained was nearly homogeneous, as judged on polyacrylamide gel electrophoresis both in the presence and absence of sodium dodecyl sulfate. The enzyme has a molecular weight of 220,000 and an isoelectric point of 4.8; it is composed of four subunits with a molecular weight of 57,000, and is bound with about 1 mol FAD/mol subunit. The activity is optimum at pH 8. The Km values for NADH and MV are 115 microM and 1.3 mM, respectively, with a molecular activity of 13,000 min-1. The activity was stimulated 2.4-fold in the presence of 20-100 mM ammonium ions. The enzyme also catalyzed the reduction of benzyl viologen, methylene blue and 2,6-dichlorophenol-indophenol (Em, 7 = -0.36, +0.011, and +0.217 V, respectively) at comparable rates. The ratios of the activity with NADH to that with NADPH were 80, 133, 41, and 5.5 with MV, benzyl viologen, methylene blue and 2,6-dichlorophenolindophenol, respectively. The enzyme was significantly stable in the presence of both 5mM 2-mercaptoethanol and 20% (w/v) glycerol. The activity was not appreciably influenced by the presence of 2 M urea, although the reagent caused dissociation to the subunits.
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PMID:A novel FAD-protein that allows effective reduction of methyl viologen by NADH (NADH-methyl viologen reductase) from photosynthetic bacterium, Rhodospirillum rubrum: purification and characterization. 308 61

Only three major NADPH-nitrotetrazolium blue (NTB) reductases may be detected in a unique top-ale yeast (Saccharomyces cerevisiae, Narragansett strain), which appears to be of a near anaerobic type with the absence of cytochromes c and a/a3 and the presence of cytochromes P-450 and b5. Two of these three major NADPH-NTB reductases possessed NADH-NTB reductase activity; the third was specific for NADPH and was isolated in this laboratory (Tryon, E., Cress, M. C., Hamada, M., and Kuby, S. A. (1979) Arch. Biochem. Biophys. 197, 104-118) vis. NADPH-cytochrome c reductase (FAD-containing). A description of the isolation procedure is provided for one of these two NADH(NADPH)-NTB reductases, viz. NADH(NADPH)-cytochrome c reductase (FMN-containing), which accounts for about one-half of the total cyanide-insensitive menadione-activated respiration of this yeast. This NADH(NADPH)-cytochrome c reductase has been isolated from an extract of an acetone powder of the top-fermenting ale yeast, with an apparent purification of more than 67-fold and a final specific activity of 0.41 and 0.31 mumol/min/mg for NADH- and NADPH-dependent reduction, respectively. The isolated enzyme proved to be homogeneous by electrophoresis on cellulose acetate and on polyacrylamide gels. It had a pI of 5.25 (at gamma/2 = 0.05) and a molecular size under nondenaturing conditions (as determined by chromatography on Sephadex G-100 and Sephacryl S-200) of 70,000 daltons. On denaturation, the enzyme dissociated into two similar, if not identical, subunits which possessed a molecular weight of 34,000 by sodium dodecyl sulfate/urea-polyacrylamide gel electrophoresis and a weight average molecular weight of 35,000 by sedimentation equilibrium in the presence of 4.0 M guanidinium chloride. The absorbance spectrum of NADH(NADPH)-cytochrome c reductase (FMN-containing) showed three maxima at 464, 383, and 278 nm, with extinction coefficients of 9.88, 9.98, and 64.6 mM-1 cm-1, respectively. The reductase, as isolated, contained 0.63 mol of FMN/34,000-dalton subunit, with no metals and one sulfhydryl group/subunit. Its amino acid composition is reported herein. Anaerobic titrations with dithionite or NAD(P)H revealed a two-electron reduction of FMN, with no spectrally observable semiquinone intermediates.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Studies on NADH (NADPH)-cytochrome c reductase (FMN-containing) from yeast. Isolation and physicochemical properties of the enzyme from top-fermenting ale yeast. 393 Apr 93

[1-3H]Allylamine was synthesized by sodium boro[3H]hydride reduction of acrolein followed by direct conversion of the [1-3H]allyl alcohol to N-allylphthalimide with triphenylphosphine, diethylazodicarboxylate, and phthalimide. The protecting group was removed with hydrazine. Inactivation of beef liver mitochondrial monoamine oxidase with [1-3H]allylamine led to incorporation of 1-6 eq of inactivator/active site depending upon the length of incubation time. Inactivation and radioactivity incorporation coincided; however, after 1 eq of tritium was incorporated and 5% enzyme activity remained, additional radioactivity continued to become incorporated into the enzyme. The optical spectrum of the FAD coenzyme changed during inactivation from that of oxidized to reduced flavin. Following dialysis of the inactivated enzyme, the spectrum remained reduced, but denaturation in urea rapidly resulted in reoxidation of the flavin. Under these same denaturing conditions, 96% of the radioactivity associated with the enzyme remained bound, therefore indicating that allylamine attachment is not to the flavin coenzyme but rather to an active site amino acid residue. The adduct also was stable to base and, to a lesser degree, acid treatment. Although allylamine and N-cyclopropylbenzylamine appear to be oxidized by monoamine oxidase to give 3-(amino acid residue) propanal adducts, two different amino acids seem to be involved because of a difference in stability of the adducts. The mechanisms for inactivation of monoamine oxidase by allylamine and reactivation by benzylamine are discussed in relation to previously reported results.
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PMID:Inactivation of monoamine oxidase by allylamine does not result in flavin attachment. 405 94

1. Flavines are photoreduced through their triplet states by amines and amino acids (e.g. EDTA and dl-phenylglycine). The anaerobic photoreduction of FMN and several other flavines with dl-phenylglycine was analysed in terms of a detailed kinetic scheme. 2. The reaction produces equimolar amounts of benzaldehyde, carbon dioxide and reduced flavine. 3. The sensitivity of the rates to substituents in the dl-phenylglycine can be described by a Hammett rho-value of -1.1. 4. Phenylacetic acid behaves differently from dl-phenylglycine or benzylamine towards a series of flavines. 5. The photoreductions are quenched by several aromatic compounds. From the effects of light-intensity and temperature, and by comparison with potassium iodide quenching, it is concluded that inhibition by the aromatic compounds is not simply a collisional process. 6. FAD reacts more slowly than FMN both in the photoreduction and in dark reduction by NADH. Urea and dimethyl sulphoxide decrease the intramolecular interaction in FAD, but they have no effect on the rate of dark reduction of FAD compared with FMN. In contrast, the photoreduction of FAD is quicker in urea.
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PMID:The chemistry of flavines and flavorproteins. Photoreduction of flavines by amino acids. 430 May 10

Carbon monoxide:methylene blue oxidoreductase, the key enzyme of CO-oxidation in energy metabolism of the carboxydobacterium Pseudomonas carboxydovorans, has been isolated in good yield and purity and found to contain FAD, molybdenum, iron, and labile sulfide in the ratio of 1:1:4:4. The enzyme is, therefore, a new molybdenum-containing iron-sulfur flavoprotein, exhibiting chemical and spectral properties quite similar to those of xanthine oxidase. Analytical data on the spectral characteristics of the enzyme in the oxidized and various reduced states are presented. Carbon monoxide:methylene blue oxidoreductase turned out to be photoreducible in the presence of EDTA and urea and was subject to reoxidation by air oxygen; no flavoprotein semiquinone was formed. Unphysiological electron acceptors, e.g. methylene blue, were used as oxidizing substrates whereas NAD or NADP turned out to be ineffective. Methylene blue reduction with CO was not affected by the presence of allopurinol, and carbon monoxide:methylene blue oxidoreductase was not able to catalyze the reduction of methylene blue with xanthine, adenine, or aldehydes. CO was the only reducing substrate used by the enzyme. Carbon monoxide:methylene blue oxidoreductase formed no sulfite adduct, and the reactivity with ferricyanide or cytochrome c was significant but slow. As known for other molybdenum hydroxylases, carbon monoxide:methylene blue oxidoreductase was rapidly inactivated by methanol, but the enzyme exhibited no ability to catalyze the oxidation of NADH with methylene blue, and NAD was not able to overcome methanol inhibition.
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PMID:Chemical and spectral properties of carbon monoxide: methylene blue oxidoreductase. The molybdenum-containing iron-sulfur flavoprotein from Pseudomonas carboxydovorans. 627 81

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