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)

Heterotetrameric (alphabetagammadelta) sarcosine oxidase from Corynebacterium sp. P-1 (cTSOX) contains noncovalently bound FAD and NAD(+) and covalently bound FMN, attached to beta(His173). The beta(His173Asn) mutant is expressed as a catalytically inactive, labile heterotetramer. The beta and delta subunits are lost during mutant enzyme purification, which yields a stable alphagamma complex. Addition of stabilizing agents prevents loss of the delta but not the beta subunit. The covalent flavin link is clearly a critical structural element and essential for TSOX activity or preventing FMN loss. The alpha subunit was expressed by itself and purified by affinity chromatography. The alpha and beta subunits each contain an NH(2)-terminal ADP-binding motif that could serve as part of the binding site for NAD(+) or FAD. The alpha subunit and the alphagamma complex were each found to contain 1 mol of NAD(+) but no FAD. Since NAD(+) binds to alpha, FAD probably binds to beta. The latter could not be directly demonstrated since it was not possible to express beta by itself. However, FAD in TSOX from Pseudomonas maltophilia (pTSOX) exhibits properties similar to those observed for the covalently bound FAD in monomeric sarcosine oxidase and N-methyltryptophan oxidase, enzymes that exhibit sequence homology with beta. A highly conserved glycine in the ADP-binding motif of the alpha(Gly139) or beta(Gly30) subunit was mutated in an attempt to generate NAD(+)- or FAD-free cTSOX, respectively. The alpha(Gly139Ala) mutant is expressed only at low temperature (t(optimum) = 15 degrees C), but the purified enzyme exhibited properties indistinguishable from the wild-type enzyme. The much larger barrier to NAD(+) binding in the case of the alpha(Gly139Val) mutant could not be overcome even by growth at 3 degrees C, suggesting that NAD(+) binding is required for TSOX expression. The beta(Gly30Ala) mutant exhibited subunit expression levels similar to those of the wild-type enzyme, but the mutation blocked subunit assembly and covalent attachment of FMN, suggesting that both processes require a conformational change in beta that is induced upon FAD binding. About half of the covalent FMN in recombinant preparations of cTSOX or pTSOX is present as a reversible covalent 4a-adduct with a cysteine residue. Adduct formation is not prevented by mutating any of the three cysteine residues in the beta subunit of cTSOX to Ser or Ala. Since FMN is attached via its 8-methyl group to the beta subunit, the FMN ring must be located at the interface between beta and another subunit that contains the reactive cysteine residue.
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PMID:Organization of the multiple coenzymes and subunits and role of the covalent flavin link in the complex heterotetrameric sarcosine oxidase. 1133 Sep 98

In terms of glucose sensing by pancreatic islet beta-cells, emphasis is currently placed on both the role of glucokinase, with negligible activity of low-Km hexokinase(s), and the prevalence of the oxidative over non-oxidative modality of glycolysis, a situation tentatively attributed, in part at least, to a low activity of lactate dehydrogenase. Conflicting information is available, however, on the activity of both low-Km hexokinase(s) and lactate dehydrogenase in purified beta-cell homogenates. This issue was reinvestigated, therefore, in two populations of purified rat islet beta-cells selected on the basis of their low (betaL) or high (betaH) content in reduced pyridine nucleotides. The size and protein content of betaH cells represented about twice that of betaL cells. Such was also the case for low-Km hexokinase(s), lactate dehydrogenase, mitochondrial FAD-linked glycerophosphate dehydrogenase, glutamate dehydrogenase and glutamate-alanine and glutamate-aspartate transaminases. Whether in betaH or betaL cells, the activity of low-Km hexokinase(s) was at least as high as or higher than that of glucokinase. In both betaH and betaL, the activity of lactate dehydrogenase exceeded that required to catalyze the full reduction of glucose-derived pyruvate to L-lactate, as estimated from the rate of D-glucose phosphorylation under physiological conditions. These findings thus argue against a low expression of either low-Km hexokinase(s) or lactate dehydrogenase as major determinants of the glucose-sensing device in beta-cells.
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PMID:Enzymic activities in two populations of purified rat islet beta-cells. 1149 57

Human inducible nitric oxide synthase (iNOS) is active as a dimer of two identical subunits. Each subunit has an amino-terminal oxygenase domain that binds the substrate l-Arg and the cofactors heme and tetrahydrobiopterin and a carboxyl-terminal reductase domain that binds FMN, FAD, and NADPH. We previously demonstrated that a subdomain in the oxygenase domain encoded by exons 8 and 9 is important for dimer formation and NO synthesis. Further, we identified Trp-260, Asn-261, Tyr-267, and Asp-280 as key residues in that subdomain. In this study, using an Escherichia coli expression system, we produced, purified, and characterized wild-type iNOS and iNOS-Ala mutants. Using H(2)O(2)-supported oxidation of N(omega)-hydroxy-l-Arg, we demonstrate that the iNOS mutants' inabilities to synthesize NO are due to selective defects in the oxygenase domain activity. Detailed characterization of the Asp-280-Ala mutant revealed that it retains a functional reductase domain, as measured by its ability to reduce cytochrome c. Gel permeation chromatography confirmed that the Asp-280-Ala mutant exists as a dimer, but, in contrast to wild-type iNOS, urea-generated monomers of the mutant fail to reassociate into dimers when incubated with l-Arg and tetrahydrobiopterin, suggesting inadequate subunit interaction. Spectral analysis reveals that the Asp-280-Ala mutant does not bind l-Arg. This indicates that, in addition to dimerization, proper subunit interaction is required for substrate binding. These data, by defining a critical role for Asp-280 in substrate binding and subunit interactions, give insights into the mechanisms of regulation of iNOS activity.
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PMID:Characterization of key residues in the subdomain encoded by exons 8 and 9 of human inducible nitric oxide synthase: a critical role for Asp-280 in substrate binding and subunit interactions. 1151 17

Porcine NADH-cytochrome b5 reductase catalytic domain (Pb5R) has the RXY(T/S)+(T/S) flavin-binding motif that is highly conserved among the structurally related family of flavoprotein reductases. Mutations were introduced that alter the Arg(63), Tyr(65), and Ser(99) residues within this motif. The mutation of Tyr(65) to either alanine or phenylalanine destabilized the protein, produced an accelerated release of FAD in the presence of 1.5 M guanidine hydrochloride, and decreased the k(cat) values of the enzyme. These results indicate that Tyr(65) contributes to the stability of the protein and is important in the electron transfer from NADH to FAD. The mutation of Ser(99) to either alanine or valine, and of Arg(63) to either alanine or glutamine increased both the K(m) values for NADH (K(m)(NADH)) and the dissociation constant for NAD(+) (K(d)(NAD+)). However, the mutation of Ser(99) to threonine and of Arg(63) to lysine had very little effect on the K(m)(NADH) and K(d)(NAD+) values, and resulted in small changes in the absorption and circular dichroism spectra. These results suggest that the hydroxyl group of Ser(99) and the positive charge of Arg(63) contribute to the maintenance of the properties of FAD and to the effective binding of Pb5R to both NADH and NAD(+). In addition, the mutation of Arg(63) to either alanine or glutamine increased the apparent K(m) values for porcine cytochrome b5 (Pb5), while changing Arg(63) to lysine did not. The positive charge of Arg(63) may regulate the electron transfer through the electrostatic interaction with Pb5. These results substantiate the important role of the flavin-binding motif in Pb5R.
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PMID:Effects of flavin-binding motif amino acid mutations in the NADH-cytochrome b5 reductase catalytic domain on protein stability and catalysis. 1157 67

Isovaleryl-CoA dehydrogenase (IVD) is a homotetrameric flavoenzyme, which catalyzes the conversion of isovaleryl-CoA to 3-methylcrotonyl-CoA and transfers electrons to the electron-transferring flavoprotein, and is a member of the acyl-CoA dehydrogenase (ACD) enzyme family. Human IVD crystal structure with a bound substrate analogue shows the guanidino group of Arg387, a conserved residue among other members of the ACD enzyme family, juxtaposed to a phosphate oxygen of the 4'-phosphopantothiene moiety of the substrate analogue. Site-directed mutagenesis was used to investigate the role of Arg387 in substrate binding and enzyme function. Replacing this residue with Lys, Ala, Gln, or Glu resulted in stable proteins. Spectrophotometric substrate binding assays indicated that the Arg387Lys mutant was able to form the charge-transfer complex intermediate with similar efficiency to wild type, while the rest of the mutants were significantly less able to properly form this intermediate. However, the Km of the isovaleryl-CoA for the Arg387Lys mutant was 20.3 compared to 1.5 microM for the wild type. The Km for the rest of the mutants were 75.6, 195, and 550 microM, respectively. The catalytic efficiency per mole of FAD was 20.3, 3.3, 2.0, and 0.34 for the mutants, respectively, compared to 260 microM(-1) x min(-1) for the wild type. These results substantiate the important role of Arg387 in anchoring the substrate, and are consistent with the hypothesis that residues distant from the active site are important for stabilizing the enzyme:substrate/product complex, and could play an important role in the mechanism of the enzyme-catalyzed reaction.
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PMID:Arginine 387 of human isovaleryl-CoA dehydrogenase plays a crucial role in substrate/product binding. 1159 19

The effects of pH, solvent isotope, and primary isotope replacement on substrate dehydrogenation by Rhodotorula gracilis d-amino acid oxidase were investigated. The rate constant for enzyme-FAD reduction by d-alanine increases approximately fourfold with pH, reflecting apparent pKa values of approximately 6 and approximately 8, and reaches plateaus at high and low pH. Such profiles are observed in all presteady-state and steady-state kinetic experiments, using both d-alanine and d-asparagine as substrates, and are inconsistent with the operation of a base essential to catalysis. A solvent deuterium isotope effect of 3.1 +/- 1.1 is observed on the reaction with d-alanine at pH 6; it decreases to 1.2 +/- 0.2 at pH 10. The primary substrate isotope effect on the reduction rate with [2-D]d-alanine is 9.1 +/- 1.5 at low and 2.3 +/- 0.3 at high pH. At pH 6.0, the solvent isotope effect is 2.9 +/- 0.8 with [2-D]d-alanine, and the primary isotope effect is 8.4 +/- 2.4 in D2O. Thus, primary and solvent kinetic isotope effects (KIEs) are independent of the presence of the other isotope, i.e. the 'double' kinetic isotope effect is the product of the individual KIEs, consistent with a transition state in which rupture of the two bonds of the substrate to hydrogen is concerted. These results support a hydride transfer mechanism for the dehydrogenation reaction in d-amino acid oxidase and argue against the occurrence of any intermediates in the process. A pKa,app of approximately 8 is interpreted to arise from the microscopic ionization of the substrate amino acid alpha-amino group, but also includes contributions from kinetic parameters.
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PMID:pH and kinetic isotope effects in d-amino acid oxidase catalysis. 1168 74

Methylenetetrahydrofolate reductase (MTHFR) catalyzes the conversion of methylenetetrahydrofolate to methyltetrahydrofolate, the major methyl donor for the conversion of homocysteine to methionine. Two common polymorphisms of the human enzyme have been identified: 677C>T, which leads to the substitution of Ala-222 by valine, and 1298A>C, which leads to the replacement of Glu-429 by alanine; the former polymorphism is the most frequent genetic cause of mild hyperhomocysteinemia, a risk factor for cardiovascular disease. By using a baculovirus expression system, recombinant human MTHFR has been expressed at high levels and purified to homogeneity in quantities suitable for biochemical characterization. The Glu429Ala protein has biochemical properties that are indistinguishable from the wild-type enzyme. The Ala222Val MTHFR, however, has an enhanced propensity to dissociate into monomers and to lose its FAD cofactor on dilution; the resulting loss of activity is slowed in the presence of methyltetrahydrofolate or adenosylmethionine. This biochemical phenotype is in good agreement with predictions made on the basis of studies comparing wild-type Escherichia coli MTHFR with a mutant, Ala177Val, homologous to the Ala222Val mutant human enzyme [Guenther, B. D., et al. (1999) Nat. Struct. Biol. 6, 359-365].
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PMID:Effects of common polymorphisms on the properties of recombinant human methylenetetrahydrofolate reductase. 1175 18

Glycine oxidase (GO) is a homotetrameric flavoenzyme that contains one molecule of non-covalently bound flavin adenine dinucleotide per 47 kDa protein monomer. GO is active on various amines (sarcosine, N-ethylglycine, glycine) and d-amino acids (d-alanine, d-proline). The products of GO reaction with various substrates have been determined, and it has been clearly shown that GO catalyzes the oxidative deamination of primary and secondary amines, a reaction similar to that of d-amino acid oxidase, although its sequence homology is higher with enzymes such as sarcosine oxidase and N-methyltryptophane oxidase. GO shows properties that are characteristic of the oxidase class of flavoproteins: it stabilizes the anionic flavin semiquinone and forms a reversible covalent flavin-sulfite complex. The approximately 300 mV separation between the two FAD redox potentials is in accordance with the high amount of the anionic semiquinone formed on photoreduction. GO can be distinguished from d-amino acid oxidase by its low catalytic efficiency and high apparent K(m) value for d-alanine. A number of active site ligands have been identified; the tightest binding is observed with glycolate, which acts as a competitive inhibitor with respect to sarcosine. The presence of a carboxylic group and an amino group on the substrate molecule is not mandatory for binding and catalysis.
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PMID:Glycine oxidase from Bacillus subtilis. Characterization of a new flavoprotein. 1174 10

Monoamine oxidase is a flavin-containing enzyme located at the mitochondrial outer membrane that catalyzes the oxidative deamination of amines. To investigate the role of tyrosine residues near the FAD-binding site, Cys-406, of monoamine oxidase A, the tyrosine residues at posiyions 402, 407, and 410 were indurdually replaced with alanine or phenylalanine and the effects of the mutations on catalytic activity, FAD binding, and enzyme structure were examined. Half or fewer of the mutant proteins incorporated FAD. The mutation of Tyr-407 to alanine led to an almost completely loss of catalytic activity for serotonin, PEA, tyramine, and tryptamine. A substantial decrease in the catalytic activity was also observed with the enzymes mutated at Tyr-402 and Tyr-410 to alanine, although the effect of the latter mutation was much less. All these mutants were sensitive to trypsin treatment of the purified enzyme, while the wild type enzyme was resistant to treatment. On the other hand, substitution of Tyr-402 or Tyr-407 with phenylalanine had little effect on these properties. Taken together, we conclude that tyrosine residues near Cys-406 may be form a pocket to facilitates FAD incorporation, the catalytic center, and a stable conformation, probably through interactions among the aromatic rings of the tyrosine residues and FAD.
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PMID:Tyrosine residues near the FAD binding site are critical for FAD binding and for the maintenance of the stable and active conformation of rat monoamine oxidase A. 1175 41

The activity of dye-linked d-proline dehydrogenase was found in the crude extract of a hyperthermophilic archaeon, Pyrobaculum islandicum JCM 9189. The dye-linked d-proline dehydrogenase was a membrane associated enzyme and was solubilized from the membrane fractions by treatment with Tween 20. The solubilized enzyme was purified 34-fold in the presence of 0.1% Tween 20 by four sequential chromatographies. The enzyme has a molecular mass of about 145 kDa and consisted of homotetrameric subunits with a molecular mass of about 42 kDa. The N-terminal amino acid sequence of the subunit was MKVAIVGGGIIGLFTAYHLRQQGADVVI. The enzyme retained its full activity both after incubation at 80 degrees C for 10 min and after incubation in the range of pH 4.0-10.0 at 50 degrees C for 10 min. The enzyme-catalyzed dehydrogenation of several d-amino acids was carried out using 2,6-dichloroindophenol as an electron acceptor, and d-proline was the most preferred substrate among the d-amino acids. The Michaelis constants for d-proline and 2,6-dichloroindophenol were determined to be 4.2 and 0.14 mm, respectively. Delta(1)-Pyrroline-2-carboxylate was identified as the reaction product from d-proline by thin layer chromatography. The prosthetic group of the enzyme was identified to be FAD by high-performance liquid chromatography. The gene encoding the enzyme was cloned and expressed in Escherichia coli. The nucleotide sequence of the dye-linked d-proline dehydrogenase gene was determined and encoded a peptide of 363 amino acids with a calculated molecular weight of 40,341. The amino acid sequence of the Pb. islandicum enzyme showed the highest similarity (38%) with that of the probable oxidoreductase in Sulfolobus solfataricus, but low similarity with those of d-alanine dehydrogenases from the mesophiles so far reported. This shows that the membrane-bound d-proline dehydrogenase from Pb. islandicum is a novel FAD-dependent amino acid dehydrogenase.
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PMID:Dye-linked D-proline dehydrogenase from hyperthermophilic archaeon Pyrobaculum islandicum is a novel FAD-dependent amino acid dehydrogenase. 1182 69

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