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Enzyme
Compound
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Target Concepts:
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Query: KEGG:D02011 (
FAD
)
5,530
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytochrome P-450 has been purified from liver microsomes of phenobarbital-induced rabbits in the presence of ionic and nonionic detergents to concentrations over 17 nmoles per mg of protein. The purified cytochrome P-450 LM gives a single major band on SDS-polyacrylamide gel electrophoresis representing about 90 per cent of the total protein. The polypeptide chain has a molecular weight of about 49,000 daltons. NADPH-cytochrome P-450 reductase has been purified from liver microsomes of phenobarbital-induced rats in the presence of ionic and nonionic detergents to a stage where it catalyzes the reduction of 33,000 nmoles of cytochrome c per min per mg of protein. The ratio of activities toward cytochrome P-450 and cytochrome c is constant throughout purification. The purified reductase contains equimolar amounts of FMN and
FAD
and gives a single major band on SDA-polyacrylamide gel electrophoresis accounting for about 70 per cent of the total protein; the molecular weight is about 80,000 daltons. The purified cytochrome P-450 is free of cytochrome b5 but contains another electron acceptor, provisionally called Factor C, which is equivalent in amount to the heme present. Two electrons are taken up per molecule of cytochrome P-450 from dithionite or from NADPH in the presence of catalytic amounts of the reductase, and both electrons are readily transferred from the reduced cytochrome P-450 to molecular oxygen or artificial electron acceptors. The reconstituted enzyme system containing purified cytochrome P-450, purified NADPH-cytochrome P-450 reductase, and phosphatidylcholine retains the ability to catalyze the hydroxylation of drugs, fatty acids, hydrocarbons, and
aniline
in the presence of NADPH and molecular oxygen.
...
PMID:Biochemical characterization of highly purified cytochrome P-450 and other components of the mixed function oxidase system of liver microsomal membranes. 16 50
An isolation procedure of mitochondrial menadione reductase from rat liver using an ethanol-ether extraction for solubilization of the enzyme is described. The enzyme was purified 930-fold. The molecular weight of mitochondrial menadione reductase is 62,000. According to spectroscopic and enzymic analysis the prosthetic group of the enzyme was identified as
FAD
. Mitochondrial menadione reductase is inhibitied by dicumarol and p-chloromecuribenzoate. The enzyme is characterized by a group substrate specificity towards quinones. A high catalytic activity of menadione reductase towards 4-
aniline
-5-methoxy-1,2-benzoquinone (AMOBQ), and 4-N-(p-sulfoanilino)-5-methoxy-1,2-benzoquinone (AMOBQS) as acceptors was demonstrated. It was shown that the reduction of these orto-benzoquinones by NAD(P) H follows the "ping-pong" kinetics. The kinetic constants for NAD(P)H,AMOBQ and and AMOBQS were determined.
...
PMID:[Properties and reaction mechanism of mitochondrial menadione reductase]. 102 99
To create a semi-artificial monomolecular oxygenase system,
FAD
or FMN were covalently bound to cytochrome P450 2B4 as electron donor centers and bleomycin to NADPH-cytochrome P450 reductase as a generator of active oxygen species. The most catalytically active was the conjugate of cytochrome P450 with FMN, able to initiate the reactions of dimethylaniline and aminopyrine demethylation along with the reaction of
aniline
p-hydroxylation. The conjugate of cytochrome P450 with
FAD
oxidized these substrates at a much slower rate. The bleomycin-reductase complex was capable of demethylating dimethylaniline and aminopyrine but failed to oxidize
aniline
.
...
PMID:Semi-artificial hydroxylating enzymes created by flavins binding to cytochrome P450 2B4 and by bleomycin binding to NADPH-cytochrome P450 reductase. 751 93
1. A fever-induced model in rat was created by repeated injection of interleukin 1 beta (IL-1 beta) in the cerebroventricle and the influence of fever on hepatic drug metabolism was investigated. Fever apparently decreased the content of cytochrome P450 (CYP) and the activities of NADPH-ferrihaemoprotein reductase (fp2), aminopyrine N-demethylase,
aniline
hydroxylase,
FAD
-monooxygenase, p-nitrophenol UDP-glucuronosyl-transferase and glutathione S-transferase. Immunoblot analysis of the CYP isozymes indicated that CYP2C11 and CYP3A were extensively decreased in the IL-1 beta-induced fevered rat. 2. Repeated administration (5 days) of mefenamic acid in the fevered rat could not restore the activities of fp2, aminopyrine N-demethylase and
aniline
hydroxylase to control levels, although their hyperthermic state had been improved. The CYP content in the mefenamic acid-treated fevered rat was also lower than that in the control. 3. These findings suggest that fever impairs the hepatic drug-metabolizing capacity (both oxidation and some conjugations) and that the fever-induced impairments are partially retained, even if the hyperthermia has been offset by the administration of antipyretics.
...
PMID:Effect of interleukin 1 beta-induced fever on hepatic drug metabolism in rat. 966 79
Electropolymerization of
aniline
in the presence of poly(acrylic acid) on Au electrodes yields a polyaniline/poly(acrylic acid) composite film, exhibiting reversible redox functions in aqueous solutions at pH = 7.0. In situ electrochemical-SPR measurements are used to identify the dynamics of swelling and shrinking of the polymer film upon the oxidation of the polyaniline (PAn) to its oxidized state (PAn(2+)) and the reduction of the oxidized polymer (PAn(2+)) back to its reduced state (PAn), respectively. Covalent attachment of N(6)-(2-aminoethyl)-flavin adenin dinucleotide (amino-
FAD
, 1) to the carboxylic groups of the composite polyaniline/poly(acrylic acid) film followed by the reconstitution of apoglucose oxidase on the functional polymer yields an electrically contacted glucose oxidase of unprecedented electrical communication efficiency with the electrode: electron-transfer turnover rate approximately 1000 s(-1) at 30 degrees C. In situ electrochemical-SPR analyses are used to characterize the bioelectrocatalytic functions of the biomaterial-polymer interface. The current responses of the bioelectrocatalytic system increase as the glucose concentrations are elevated. Similarly, the SPR spectra of the system are controlled by the concentration of glucose. The glucose concentration controls the steady-state concentration ratio of PAn/PAn(2+) in the film composition. Therefore, the SPR spectrum of the film measured upon its electrochemical oxidation is shifted from the spectrum typical for the oxidized PAn(2+) at low glucose concentration to the spectrum characteristic of the reduced PAn at high glucose concentration. Similarly, the polyaniline/poly(acrylic acid) film acts as an electrocatalyst for the oxidation of NADH. Accordingly, an integrated bioelectrocatalytic assembly was constructed on the electrode by the covalent attachment of N(6)-(2-aminoethyl)-beta-nicotinamide adenine dinucleotide (amino-NAD(+), 2) to the polymer film, and the two-dimensional cross-linking of an affinity complex formed between lactate dehydrogenase and the NAD(+)-cofactor units associated with the polymer using glutaric dialdehyde as a cross-linker. In situ electrochemical-SPR measurements are used to characterize the bioelectrocatalytic functions of the system. The amperometric responses of the system increase as the concentrations of lactate are elevated, and an electron-transfer turnover rate of 350 s(-1) between the biocatalyst and the electrode is estimated. As the PAn(2+) oxidizes the NADH units generated by the biocatalyzed oxidation of lactate, the PAn/PAn(2+) steady-state ratio in the film is controlled by the concentration of lactate. Accordingly, the SPR spectrum measured upon electrochemical oxidation of the film is similar to the spectrum of PAn(2+) at low lactate concentration, whereas the SPR spectrum resembles that of PAn at high concentrations of lactate.
...
PMID:Integration of polyaniline/poly(acrylic acid) films and redox enzymes on electrode supports: an in situ electrochemical/surface plasmon resonance study of the bioelectrocatalyzed oxidation of glucose or lactate in the integrated bioelectrocatalytic systems. 1203 80
