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)

Cytochrome p450BM3 is a self-sufficient fatty acid monooxygenase consisting of a diflavin (FAD/FMN) reductase domain and a heme domain fused together in a single polypeptide chain. The multidomain structure makes it an ideal model system for studying the mechanism of electron transfer and for understanding p450 systems in general. Here we report the redox properties of the cytochrome p450BM3 wild-type holoenzyme, and its isolated FAD reductase and p450 heme domains, when immobilized in a didodecyldimethylammonium bromide film cast on an edge-plane graphite electrode. The holoenzyme showed cyclic voltammetric peaks originating from both the flavin reductase domain and the FeIII/FeII redox couple contained in the heme domain, with formal potentials of -0.388 and -0.250 V with respect to a saturated calomel electrode, respectively. When measured in buffer solutions containing the holoenzyme or FAD-reductase domain, the reductase response could be maintained for several hours as a result of protein reorganization and refreshing at the didodecyldimethylammonium modified surface. When measured in buffer solution alone, the cyclic voltammetric peaks from the reductase domain rapidly diminished in favour of the heme response. Electron transfer from the electrode to the heme was measured directly and at a similarly fast rate (ks' = 221 s-1) to natural biological rates. The redox potential of the FeIII/FeII couple increased when carbon monoxide was bound to the reduced heme, but when in the presence of substrate(s) no shift in potential was observed. The reduced heme rapidly catalysed the reduction of oxygen to hydrogen peroxide.
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PMID:Redox properties of cytochrome p450BM3 measured by direct methods. 1451 19

A series of truncated forms of His(6)-tagged gp91phox were expressed, solubilized, and purified in the presence of 30 microM FAD. The truncated gp91phox with the longest sequence in the C-terminal region (221-570) (gp91C) showed the highest activity (turnover rate, 0.92) for NADPH diaphorase in the presence of either 0.3% Triton X-100 or 0.5% Genapol X-80. Activity was not inhibited by superoxide dismutase but was blocked by an inhibitor of the respiratory burst oxidase, diphenylene iodonium. The flavinated gp91C contained approximately 0.9 mol of FAD/mol of protein (MW 46 kDa) and 12% alpha-helix content. In the absence of p47phox, p67phox showed considerable activation of gp91C in the presence of Rac. Carboxyl-terminal truncated p67phox (1-210) (p67N), which is the minimal active fragment, was fused with Rac or Q61LRac. The fusion protein p67N-Rac (or p67N-Q61LRac) showed a 2-fold higher stimulatory effect on NBT reductase activity of gp91C than the combination of the individual cytosolic p67N and Rac proteins. In contrast, Rac-p67N, a fusion with the opposite orientation, showed a smaller significant effect on the enzyme activity. The EC(50) values for p67phox, p67N, p67N-Rac, and Rac-p67N were 8.00. 4.35, 2.56, and 15.2 microM, respectively, while the K(m) value for NADPH in the presence and absence of the cytosolic components was almost the same (40-55 microM). In the presence of Rac, p67N or p67phox bound to gp91C with a molar ratio of approximately 1:1 but neither p67N nor Rac alone showed significant binding.
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PMID:Activation of the flavoprotein domain of gp91phox upon interaction with N-terminal p67phox (1-210) and the Rac complex. 1526 May

Monoamine oxidases A and B (MAO A and MAO B) are mitochondrial outer membrane-bound flavoproteins that catalyze the oxidative deamination of neurotransmitters and biogenic amines. A number of mechanism-based inhibitors (MAOI's) have been developed for clinical use as antidepressants and as neuroprotective drugs. To facilitate the development of more effective and specific inhibitors, a detailed understanding of the structures and catalytic mechanisms of these enzymes is required. The recent development of high level expression systems for producing recombinant human liver MAO A and MAO B in Pichia pastoris has facilitated the determination of the three dimensional crystal structures of MAO B (up to 1.7 angstroms resolution) in complex with different reversible (isatin, 1,4-diphenyl-2-butene) and irreversible inhibitors (pargyline, N-(2-aminoethyl)-p-chlorobenzamide, and trans-2-phenylcyclopropylamine). The binding of substrates or inhibitors to MAO B involves an initial negotiation of a protein loop occurring near the surface of the membrane and two hydrophobic cavities; an "entrance" cavity and an "active site" cavity. These two cavities can either be separate or in a fused state depending on the conformation of the Ile199 side chain, which appears to function as a gate. The amine function of the bound substrate approaches the re face of the bent and "puckered" covalent FAD through an "aromatic cage" formed by two tyrosine residues that are perpendicular to the plane of the flavin ring. No amino acid residues that could function as acids or bases are found near the catalytic site. The existing structural data on MAO B support previous QSAR results and are also supportive of a proposed polar nucleophilic mechanism for MAO A and B catalysis rather than the alternatively proposed single electron transfer mechanism.
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PMID:Structure and mechanism of monoamine oxidase. 1527 62

Excessive nitrate accumulated in plants affects vegetable quality severely and excessive nitrate ingestion would do harm to human health. Assimilatory NADH: nitrate reductase (NR, EC 1.6.6.1), a complex Mo-pterin-, cytochrome b(557)- and FAD-containing protein, catalyzes the regulated and rate-limiting step in the utilization of inorganic nitrogen by higher plants. Enhancing the activity of NR is conducive to reduce the concentration of nitrate in plants. The experiments were conducted to investigate the activity of nitrate reductase in different plant tissues and the relationship between external inducing solution concentration and NR activity (NRA) in plant leaves. Six plant seedlings growing in solution culture were deprived of an external nitrogen (N) supply for 2 weeks. On selected days, three of six plant seedlings were exposed to 50mmol/L NO3- for 0, 2, 5, 8, 11h, and four of the six plant seedlings were exposed to 0, 10, 30, 50mmol/L NO3- for 2h. The NRA was determined in vivo at 538nm using spectrophotometer. The results showed that NRA increased when those plant seedlings were induced by nitrate solution. The change trends of NRA in roots and in leaves of cole, pea and tomato were different during treating time. The NRA in cole leaves was higher than that in its root and in other two plants and increased along with inducing time, but the NRA in bea and tomato was highest when the treating time was 8h and 2h, respectively. The highest NRA in leaves of three kinds of Chinese cabbages and tomato was induced by different concentrations of KNO3 solution. In tomato leaves, the highest NRA was induced by 10 - 30mmol/L KNO3 solution. In three Chinese cabbages, Brassica chinensis L. cv. AJH, XBC and KR-605, the highest NRA was induced by 10, 30, 10mmol/L KNO3 solution, respectively. The results indicated that the response manners of NRA in plants to external nitrate solutions were different. According to these results, the level of NR mRNA in plants could be enhanced by nitrate inducement. The total RNA was isolated from tomato leaves and root which induced by 30mmol/L KNO3 solution for 2h, and NR cDNA was obtained by RT-PCR using the specific primers. The fragments of PCR products were cloned and sequenced. There are 2736 base pairs in the whole cDNA fragment. The deduced protein sequence contains 911 amino acids. The NR gene can be fused to the CaMV 35S promoter, then introduced to higher plants, such as vegetables. It is hoped to decrease drastically the nitrate content of the transgenic plants.
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PMID:[Induced activity of nitrate reductase by nitrate and cloning of nitrate reductase gene]. 1596 98

Photoactivated adenylyl cyclase (PAC) is a recently discovered blue-light photoreceptor that mediates photomovement in Euglena gracilis(Iseki et al., Nature, 2002, 415, 1047--1051). PAC appears to be a heterotetramer composed of two FAD-binding subunits (PACalpha and PACbeta). Both subunits have a pair of homologous regions (F1 and F2) which show homology with prokaryotic "sensors of blue-light using FAD"(BLUF) domains. The F1 and F2 domains of PAC are the only eukaryotic BLUF domains found thus far. We obtained soluble recombinant F1 and F2 proteins in PACalpha by heterologous expression with fused glutathione-S-transferase (GST) in E. coli. The expressed F1 samples did not bind flavins, but the F2 samples contained both FAD and FMN with trace amounts of riboflavin. We also assembled the histidine-tagged recombinant F2 (6His-F2) from inclusion bodies in E. coli with exogenous FAD or FMN. Blue-light-induced changes in absorption spectra of these assembled samples were highly similar to those reported for prokaryotic BLUF domains. The FAD- or FMN-assembled 6His-F2 photocycled with nearly the same rate constants of light-reaction and dark-relaxation, which were slightly lower than those of GST-cleaved F2. The estimated quantum efficiency for the phototransformation was 0.28--0.32, and the half-life was 34--44 s at 25 degrees C for the recombinant PACalpha F2, whereas that reported for prokaryotic BLUF domains varied from ca. 3.5 s (Tll0078) to ca. 900 s (AppA). The mutated recombinant Y472F and Q514G of PACalpha F2 and the F2 domain of the PACalpha homologue from Eutreptiella gymnastica, which lacks the Gln residue conserved in other BLUF domains, showed no photoinduced transformation.
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PMID:Photocycle features of heterologously expressed and assembled eukaryotic flavin-binding BLUF domains of photoactivated adenylyl cyclase (PAC), a blue-light receptor in Euglena gracilis. 1612 Dec 89

Monomeric sarcosine oxidase (MSOX) is a flavoprotein that contains covalently bound FAD [8a-(S-cysteinyl)FAD] and catalyzes the oxidation of sarcosine (N-methylglycine) and other secondary amino acids, such as l-proline. Our previous studies showed that N-(cyclopropyl)glycine (CPG) acts as a mechanism-based inactivator of MSOX [Zhao, G., et al. (2000) Biochemistry 39, 14341-14347]. The reaction results in the formation of a modified reduced flavin that can be further reduced and stabilized by treatment with sodium borohydride. The borohydride-reduced CPG-modified enzyme exhibits a mass increase of 63 +/- 2 Da as compared with native MSOX. The crystal structure of the modified enzyme, solved at 1.85 A resolution, shows that FAD is the only site of modification. The modified FAD contains a fused five-membered ring, linking the C(4a) and N(5) atoms of the flavin ring, with an additional oxygen atom bound to the carbon atom attached to N(5) and a tetrahedral carbon atom at flavin C(4) with a hydroxyl group attached to C(4). On the basis of the crystal structure of the borohydride-stabilized adduct, we conclude that the labile CPG-modified flavin is a 4a,5-dihydroflavin derivative with a substituent derived from the cleavage of the cyclopropyl ring in CPG. The results are consistent with CPG-mediated inactivation in a reaction initiated by single electron transfer from the amine function in CPG to FAD in MSOX, followed by collapse of the radical pair to yield a covalently modified 4a,5-dihydroflavin.
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PMID:Structure of the sodium borohydride-reduced N-(cyclopropyl)glycine adduct of the flavoenzyme monomeric sarcosine oxidase. 1630 Mar 92

Resistoflavin (1) is a rare boat-shaped pentacyclic polyketide metabolite of Streptomyces resistomycificus with marked antibacterial activity. By a series of experiments we have disclosed that the optically active molecule is derived from the discoid polyketide resistomycin (2) by an unusual, enantioface-differentiating hydroxylation, which leads to the capped pentacyclic ring system. In vivo and in vitro experiments unequivocally demonstrate that this reaction is catalyzed by RemO, an FAD-dependent monooxygenase. In addition, we were able to establish the absolute configuration of 1 and thus the stereochemical course of this rare enzymatic reaction by extensive computational methods. Comparison of the experimental CD spectrum with those quantum chemically calculated for (R)-1 and (S)-1 revealed the R-configuration of 1. Consequently, the enzyme-catalyzed hydroxylation takes place from the Re-face of 2 with loss of aromaticity in favor of a chiral carbinol center. While other oxygenases involved in polyketide tailoring functionalize the periphery of polyphenols, RemO is unique in its ability to catalyze a central, nonperipheral hydroxylation of a fused ring system.
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PMID:The boat-shaped polyketide resistoflavin results from re-facial central hydroxylation of the discoid metabolite resistomycin. 1709 47

Proline dehydrogenase (PRODH) and Delta(1)-pyrroline-5-carboxylate dehydrogenase (P5CDH) catalyze the two-step oxidation of proline to glutamate. They are distinct monofunctional enzymes in all eukaryotes and some bacteria but are fused into bifunctional enzymes known as proline utilization A (PutA) in other bacteria. Here we report the first structure and biochemical data for a monofunctional PRODH. The 2.0-A resolution structure of Thermus thermophilus PRODH reveals a distorted (betaalpha)(8) barrel catalytic core domain and a hydrophobic alpha-helical domain located above the carboxyl-terminal ends of the strands of the barrel. Although the catalytic core is similar to that of the PutA PRODH domain, the FAD conformation of T. thermophilus PRODH is remarkably different and likely reflects unique requirements for membrane association and communication with P5CDH. Also, the FAD of T. thermophilus PRODH is highly solvent-exposed compared with PutA due to a 4-A shift of helix 8. Structure-based sequence analysis of the PutA/PRODH family led us to identify nine conserved motifs involved in cofactor and substrate recognition. Biochemical studies show that the midpoint potential of the FAD is -75 mV and the kinetic parameters for proline are K(m) = 27 mm and k(cat) = 13 s(-1). 3,4-Dehydro-l-proline was found to be an efficient substrate, and l-tetrahydro-2-furoic acid is a competitive inhibitor (K(I) = 1.0 mm). Finally, we demonstrate that T. thermophilus PRODH reacts with O(2) producing superoxide. This is significant because superoxide production underlies the role of human PRODH in p53-mediated apoptosis, implying commonalities between eukaryotic and bacterial monofunctional PRODHs.
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PMID:Structure and kinetics of monofunctional proline dehydrogenase from Thermus thermophilus. 1734 8

A gene encoding an alditol oxidase was found in the genome of Streptomyces coelicolor A3(2). This newly identified oxidase, AldO, was expressed at extremely high levels in Escherichia coli when fused to maltose-binding protein. AldO is a soluble monomeric flavoprotein with subunits of 45.1 kDa, each containing a covalently bound FAD cofactor. From sequence alignments with other flavoprotein oxidases, it was found that AldO contains a conserved histidine (His(46)) that is typically involved in covalent FAD attachment. Covalent FAD binding is not observed in the H46A AldO mutant, confirming its role in covalent attachment of the flavin cofactor. Steady-state kinetic analyses revealed that wild-type AldO is active with several polyols. The alditols xylitol (K(m) = 0.32 mm, k(cat) = 13 s(-1)) and sorbitol (K(m) = 1.4 mm, k(cat) = 17 s(-1)) are the preferred substrates. From pre-steady-state kinetic analyses, using xylitol as substrate, it can be concluded that AldO mainly follows a ternary complex kinetic mechanism. Reduction of the flavin cofactor by xylitol occurs at a relatively high rate (99 s(-1)), after which a second kinetic event is observed, which is proposed to represent ring closure of the formed aldehyde product, yielding the hemiacetal of d-xylose. Reduced AldO readily reacts with molecular oxygen (1.7 x 10(5) m(-1) s(-1)), which confirms that the enzyme represents a true flavoprotein oxidase.
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PMID:Discovery, characterization, and kinetic analysis of an alditol oxidase from Streptomyces coelicolor. 1751 96

2-Naphthoate monooxygenase, a two-protein system, encoded by the nmoA and nmoB genes, was heterologously overexpressed in Escherichia coli. The proteins used for functional characterization were purified to over 90% homogeneity by affinity chromatography. The oxidative component EnmoA (47.9 kDa) lacked substrate catalysis capability on its own, and the reductive component EnmoB (33.4 kDa) and its truncated derivate EnmoB(T) (25 kDa) possessed nearly identical independent flavin reductase activities, c. 130 micromol min(-1) mg(-1) of protein. The inframe fusioned protein EnmoB(T)A (65.2 kDa), containing NmoB(T) and NmoA peptides showed a stable 2-naphthoate monooxygenase activity of 1.2 micromol min(-1) mg(-1) of protein. This is the first report on the purification of a fused form of a two-component flavoprotein monooxygenase. In the specificity experiment, FAD and NADH were shown to be preferred cosubstrates for EnmoB and EnmoB(T). All these data suggest that NmoB(T)A is a two-component flavoprotein monooxygenase, consisting of an oxygenase and a reductase component. NmoA is a member of the class D flavoprotein monooxygenase, and NmoB is an independent NADH:Flavin oxidoreductase.
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PMID:Characterization of two components of the 2-naphthoate monooxygenase system from Burkholderia sp. strain JT1500. 1755 98

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