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)

Nucleotide sequences were determined for cDNA clones for squash NADH:nitrate oxidoreductase (EC 1.6.6.1), which is one of the most completely characterized forms of this higher plant enzyme. An open reading frame of 2754 nucleotides began at the first ATG. The deduced amino acid sequence contains 918 residues, with a predicted Mr = 103,376. The amino acid sequence is very similar to sequences deduced for other higher plant nitrate reductases. The squash sequence has significant similarity to the amino acid sequences of sulfite oxidase, cytochrome b5, and NADH:cytochrome b5 reductase. Alignment of these sequences with that of squash defines domains of nitrate reductase that appear to bind its 3 prosthetic groups (molybdopterin, heme-iron, and FAD). The amino acid sequence of the FAD domain of squash nitrate reductase was aligned with FAD domain sequences of other NADH:nitrate reductases, NADH:cytochrome b5 reductases, NADPH:nitrate reductases, ferredoxin:NADP+ reductases, NADPH:cytochrome P-450 reductases, NADPH:sulfite reductase flavoproteins, and Bacillus megaterium cytochrome P-450BM-3. In this multiple alignment, 14 amino acid residues are invariant, which suggests these proteins are members of a family of flavoenzymes. Secondary structure elements of the structural model of spinach ferredoxin:NADP+ reductase were used to predict the secondary structure of squash nitrate reductase and the other related flavoenzymes in this family. We suggest that this family of flavoenzymes, nearly all of which reduce a hemoprotein, be called "flavoprotein pyridine nucleotide cytochrome reductases."
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PMID:The sequence of squash NADH:nitrate reductase and its relationship to the sequences of other flavoprotein oxidoreductases. A family of flavoprotein pyridine nucleotide cytochrome reductases. 174 31

The binding of pyridine nucleotide to human erythrocyte glutathione reductase, an enzyme of known three-dimensional structure, requires some movement of the side chain of Tyr197. Moreover, this side chain lies very close to the isoalloxazine ring of the FAD cofactor. The analogous residue, Ile184, in the homologous enzyme Escherichia coli lipoamide dehydrogenase has been altered by site-directed mutagenesis to a tyrosine residue (I184Y) [Russell, G. C., Allison, N., Williams, C. H., Jr., & Guest, J.R. (1989) Ann. N.Y. Acad. Sci. 573, 429-431]. Characterization of the altered enzyme shows that the rate of the pyridine nucleotide half-reaction has been markedly reduced and that the spectral properties have been changed to mimic those of glutathione reductase. Therefore, Ile184 is shown to be an important residue in modulating the properties of the flavin in lipoamide dehydrogenase. Turnover in the dihydrolipoamide/NAD+ reaction is decreased by 10-fold and in the NADH/lipoamide reaction by 2-fold in I184Y lipoamide dehydrogenase. The oxidized form of I184Y shows remarkable changes in the fine structure of the visible absorption and circular dichroism spectra and also shows nearly complete quenching of FAD fluorescence. The spectral properties of the altered enzyme are thus similar to those of glutathione reductase and very different from those of wild-type lipoamide dehydrogenase. On the other hand, spectral evidence does not reveal any change in the amount of charge-transfer stabilization at the EH2 level. Stopped-flow data indicate that, in the reduction of I184Y by NADH, the first step, reduction of the flavin, is only slightly slowed but the subsequent two-electron transfer to the disulfide is markedly inhibited.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Properties of lipoamide dehydrogenase altered by site-directed mutagenesis at a key residue (I184Y) in the pyridine nucleotide binding domain. 175 96

The rates of NADH oxidation in presence of xanthine oxidase increase to a small and variable extent on addition of high concentrations of lactate dehydrogenase and other dehydrogenases. This heat stable activity is similar to polyvanadate-stimulation with respect to pH profile and SOD sensitivity. Isocitric dehydrogenase (NADP-specific) showed heat labile, SOD-sensitive polyvanadate-stimulated NADH oxidation activity. Polyvanadate-stimulated SOD-sensitive NADH oxidation was also found to occur with riboflavin, FMN and FAD in presence of a non-specific protein, BSA, suggesting that some flavoproteins may possess this activity.
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PMID:Stimulation of NADH oxidation by xanthine oxidase and polyvanadate in presence of some dehydrogenases and flavin compounds. 178 72

A partial cDNA clone coding for the haem-binding domain of NADH:nitrate reductase (EC 1.6.6.1) (NR) from the unicellular green alga Chlorella vulgaris has been isolated, sequenced and expressed. A 1.2 kb cDNA (pCVNR1) was isolated from a lambda gt11 expression library produced from polyadenylated RNA extracted from nitrate-grown Chlorella cells. pCVNR1 hybridized to a 3.5 kb mRNA transcript that was nitrate-inducible and absent from ammonium-grown cells. The entire sequence of pCVNR1 was obtained and found to have a single uninterrupted reading frame. The derived amino acid sequence of 318 amino acids has a 45-50% similarity to higher-plant NRs, including Arabidopsis thaliana, spinach (Spinacia oleracea) and tobacco (Nicotiana tabacum). A comparison with the putative domain structure of higher-plant nitrate reductases suggested that this sequence contains the complete haem-binding domain, approximately one-third of the Mo-pterin domain and no FAD-binding domain. A 32% sequence similarity is evident when comparing the Chlorella NR haem domain with that of calf cytochrome b5. Expression of pCVNR1 in a pET vector synthesized a 35 kDa protein that was antigenic to anti-(Chlorella NR) antibody. The spectral properties of this protein (reduced and oxidized) in the 400-600 nm region are identical with those of native Chlorella NR and indicate that haem is associated with the protein.
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PMID:Expression of a cDNA clone encoding the haem-binding domain of Chlorella nitrate reductase. 188 30

2,4-Dichlorophenol hydroxylase, a flavoprotein monooxygenase from Pseudomonas cepacia grown on 2,4-dichlorophenoxyacetic acid (2,4-D) as the sole source of carbon, was purified to homogeneity by a single-step affinity chromatography on 2,4-DCP-Sepharose CL-4B. The enzyme was eluted from the affinity matrix with the substrate 2,4-dichlorophenol. The enzyme has a molecular weight of 275,000 consisting of four identical subunits of molecular weight 69,000 and requires exogenous addition of FAD for its complete catalytic activity. The enzyme required an external electron donor NADPH for hydroxylation of 2,4-dichlorophenol to 3,5-dichlorocatechol. NADPH was preferred over NADH. The enzyme had Km value of 14 microM for 2,4-dichlorophenol, and 100 microM for NADPH. The enzyme activity was significantly inhibited by heavy metal ions like Hg2+ and Zn2+ and showed marked inhibition with thiol reagents. Trichlorophenols inhibited the enzyme competitively. The hydroxylase activity decreased as a function of increasing concentrations of Cibacron blue and Procion red dyes. The apoenzyme prepared showed complete loss of FAD when monitored spectrophotometrically and had no enzymatic activity. The inactive apoenzyme was reconstituted with exogenous FAD which completely restored the enzyme activity.
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PMID:Affinity purification and characterization of 2,4-dichlorophenol hydroxylase from Pseudomonas cepacia. 189 14

Serine 127 of human NADH-cytochrome b5 reductase was replaced by proline and alanine by site-directed mutagenesis. The former mutation has been found in the genes of patients with hereditary deficiency of the enzyme. Both the mutant enzymes (Ser-127----Pro mutant and Ser-127----Ala mutant) were overproduced in Escherichia coli and purified to homogeneity. The two purified mutant enzymes showed indistinguishable spectral properties which differed from those of the wild-type enzyme. The mutant enzymes showed higher molecular extinction coefficients at 462 nm than that of the wild-type enzyme. Quenching of FAD fluorescence in these mutant enzymes was significantly less than that in the wild-type enzyme. Furthermore, circular dichroism spectra of the mutant enzymes were different, in both the visible and ultraviolet regions, from that of the wild-type enzyme. The spectra of the mutant enzymes in the visible region were restored to almost the same spectrum as the wild type upon reduction with NADH. Ser-127----Pro mutant and Ser-127----Ala mutant showed very low Kcat/Km (NADH) values (5 x 10(7) and 3.5 x 10(7) s-1 M-1, respectively) with cytochrome b5 as an electron acceptor, than that of the wild-type enzyme (Kcat/Km (NADH) = 179 x 10(7) s-1 M-1), while the Kcat/Km (cytochrome b5) value for each enzyme was similar. The mutant enzymes were less thermostable than the wild-type enzyme. These results indicate that serine 127 plays an important role to maintain the structure of the NADH-binding site in the enzyme.
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PMID:Structural role of serine 127 in the NADH-binding site of human NADH-cytochrome b5 reductase. 189 26

Pravastatin (CS-514) is a tissue selective inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase (EC 1.1.1.34), a key enzyme in cholesterol biosynthesis. This compound is obtained by hydroxylation of ML-236B (mevastatin) in Streptomyces carbophilus catalyzed by a cytochrome P-450sca monooxygenase system. NADH-cytochrome P-450 reductase was purified to homogeneity from S. carbophilus as a single polypeptide chain with a molecular weight of 51 kDa, and reconstituted the hydroxylation in vitro with cytochrome P-450sca, NADH and O2. This protein contained FAD and FMN molecule. The FMN molecule was easily dissociated from the reductase, and had a Kd value of 5 x 10(-5) M. The cytochrome P-450sca monooxygenase system was present in the soluble fraction and consisted of only two components, cytochrome P-450sca and flavoprotein. Our results constitute the demonstration of a two component-type cytochrome P-450 system in a prokaryote.
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PMID:A two component-type cytochrome P-450 monooxygenase system in a prokaryote that catalyzes hydroxylation of ML-236B to pravastatin, a tissue-selective inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase. 190 57

3-Hydroxyphenylacetate 6-hydroxylase was purified 70-fold from a Flavobacterium sp. grown upon phenylacetic acid as its sole carbon and energy source. The presence of FAD and dithiothreitol during purification is essential for high recovery of active enzyme. SDS/PAGE of purified enzyme reveals a single band with a minimum molecular mass of 63 kDa. Analytical gel-filtration, sedimentation-equilibrium and sedimentation-velocity experiments indicate that the purified enzyme exists in solution mainly as a dimer, containing 1 molecule non-covalently bound FAD/subunit. 3-Hydroxyphenylacetate 6-hydroxylase utilizes NADH and NADPH as external electron donors with similar efficiency. The enzyme shows a narrow substrate specificity. Only the primary substrate 3-hydroxyphenylacetate is hydroxylated efficiently, yielding 2,5-dihydroxyphenylacetate as a product. During turnover, the substrate analogues 3,4-dihydroxyphenylacetate and 4-hydroxyphenylacetate are partially hydroxylated, exclusively at the 6' (2') position. The physiological product 2,5-dihydroxyphenylacetate acts as an effector, strongly stimulating NAD(P)H oxidation. The activity of 3-hydroxyphenylacetate 6-hydroxylase is severely inhibited by chloride ions, competitive to the aromatic substrate. In the native state of enzyme, two sulfhydryl groups are accessible to 5,5'-dithiobis(2-nitrobenzoate). Titration with stoichiometric amounts of either 5,5'-dithiobis(2-nitrobenzoate) or mercurial reagents completely blocks enzyme activity. Inactivation by cysteine reagents is inhibited by the substrate 3-hydroxyphenylacetate. The original activity is fully restored by treatment of the modified enzyme with dithiothreitol. The N-terminal amino acid sequence of the enzyme lacks the consensus sequence GXGXXG, found at the N-termini of all flavin-dependent external monooxygenases sequenced so far. The amino acid composition of 3-hydroxyphenylacetate 6-hydroxylase is also presented.
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PMID:Purification and characterisation of 3-hydroxyphenylacetate 6-hydroxylase: a novel FAD-dependent monooxygenase from a Flavobacterium species. 193 54

Aspartic acid 244 that occurs at the putative NAD(+)-binding site of rat liver S-adenosylhomocysteinase was replaced by glutamic acid by oligonucleotide-directed mutagenesis. The mutant enzyme was purified to homogeneity as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Gel permeation chromatography showed that the purified mutant enzyme was a tetramer as is the wild-type enzyme. In contrast to the wild-type enzyme, which possesses 1 mol of tightly bound NAD+ per mol of enzyme subunit, the mutant enzyme had only 0.05 mol of NAD+ but contained about 0.6 mol each of NADH and adenine per mol of subunit. The mutant enzyme, after removal of the bound compounds by acid-ammonium sulfate treatment, exhibited S-adenosylhomocysteinase activity when assayed in the presence of NAD+. From the appearance of activity as a function of NAD+ concentration, the enzyme was shown to bind NAD+ with a Kd of 23.0 microM at 25 degrees C, a value greater than 280-fold greater than that of the wild-type enzyme. In the presence of a saturating concentration of NAD+, the mutant enzyme showed apparent Km values for substrates similar to those of the wild-type enzyme. Moderate decreases of 8- and 15-fold were observed in Vmax values for the synthetic and hydrolytic directions, respectively. These results indicate the importance of Asp-244 in binding NAD+, and are consistent with the idea that the region of S-adenosylhomocysteinase from residues 213 to 244 is part of the NAD+ binding site. This region has structural features characteristic of the dinucleotide-binding domains of NAD(+)- and FAD-binding proteins (Ogawa, H., Gomi, T., Mueckler, M. M., Fujioka, M., Backlund, P.S., Jr., Aksamit, R.R., Unson, C.G., and Cantoni, G.L. (1987) Proc. Natl. Acad. Sci. U.S.A. 84, 719-723).
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PMID:Site-directed mutagenesis of rat liver S-adenosylhomocysteinase. Effect of conversion of aspartic acid 244 to glutamic acid on coenzyme binding. 197 8

Human NADH-cytochrome b5 reductase (EC 1.6.2.2) contains 4 cyteine residues (Cys-203, -273, -283, and -297). Cys-283 was previously proposed to be involved in NADH binding by chemical modification (Hackett, C. S., Novoa, W. B., Ozols, J., and Strittmatter, P. (1986) J. Biol. Chem. 261, 9854-9857). In the present study the role of cysteines in the enzyme was probed by replacing these residues by Ser, Ala, or Gly employing site-directed mutagenesis and chemical modification. Four mutants, in which 1 of the 4 Cys residues was replaced by Ser, retained comparable kcat and Km values to those of the wild type. All of these mutants were as sensitive as the wild type to treatment with SH modifiers, while a double mutant, C273S/C283S was resistant. Since inhibition by SH modifiers was protected by NADH, Cys-273 and Cys-283 were implicated to be close to the NADH-binding site. C273A and C273A/C283A mutants showed approximately one-fifth of the enzyme-FAD reduction rate of the wild type as revealed by steady-state kinetics and by stopped-flow analysis. Anaerobic titration has shown that reduction and re-oxidation processes including formation of the red semiquinone of these mutants were not significantly altered from those of the wild type. From these results it was concluded that none of the Cys residues of the enzyme are essential in the catalytic reaction, but Cys-273 conserved among the enzymes homologous to NADH-cytochrome b5 reductase homologous to NADH-cytochrome b5 reductase plays role(s) in facilitating the reaction. A difference spectrum with a peak at 317 nm, which was formerly considered to be derived from the interaction between NAD+ and Cys-283 of the reduced enzyme, appeared upon binding of NAD+ not only to the reduced wild type enzyme but also to the C273A/C283A mutant in which both of the Cys residues close to the NADH-binding site were replaced.
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PMID:Role of cysteine residues in human NADH-cytochrome b5 reductase studied by site-directed mutagenesis. Cys-273 and Cys-283 are located close to the NADH-binding site but are not catalytically essential. 201 83

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