EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Co- and Ru-substituted derivatives of adrenal iron-sulfur protein (adrenodoxin) were prepared from its apoprotein in the presence of urea, dithiothreitol, Na2S, and metal ions. Both metal-substituted proteins had 2 g-atoms each of metal and labile sulfur per mole of protein. The Co derivative had optical absorption maxima at 257, 264, 470, and 1430 nm with shoulders at 275, 280, 300, and 380 nm. The molar extinction coefficient per Co atom was 2.200 M-1 cm-1 at 470 nm. The Ru derivative had a broad maximum at 500 nm with a molar extinction coefficient of approximately 100 M-1 cm-1 per Ru atom. The visible chromophore of the Co- and Ru-substituted proteins with mercurials revealed that the saturation levels are 8.6 and 8.4 mol of mercurial/mol of protein. The values agree with that of the native protein within experimental errors. The tyrosyl residue at position 82 displayed a broad anomalous emission at 335 and 331 nm for the Co- and Ru-substituted proteins, respectively, as well as in the case of the native protein. There was no electron paramagnetic resonance signal of the Co derivative in a wide magnetic field at 77 degrees K. Additionally, the Co and Ru derivatives had no enzymatic activity toward NADPH-cytochrome c reduction in the presence of adrenal diaphorase (adrenodoxin reductase). There was no indication that Mn, Ni, Cu, and Os are incorporated into the apoprotein in the presence of urea. Incorporation of Fe into the protein was examined in the presence of Co or Ru. In a system containing both Fe and Ru, Fe was exclusively incorporated into the protein. In contrast to this, the reaction products from a system containing both Fe and Co were found to consist of both Fe and Co derivatives at approximately equimolar quantity.
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PMID:Cobalt and ruthenium replacement for iron in adrenal iron-sulfur protein (adrenodoxin). Preparation and some properties. 23 19

Purified rat liver NADPH-cytochrome c reductase supports iodination of tyrosine in a system including NADPH, cytochrome c and thyroid perioxidase. Catalase inhibits the iodination of tyrosine, while superoxide dismutase has no effect. Antibody developed in the rabbit against purified rat liver NADPH-cytochrome c reductase inhibits both reduction of cytochrome c and tyrosine iodination supported by the enzyme. The antibody forms a single precipitation line with thyroid extract, and inhibits NADPH cytochrome c reductase activity of the thyroid. The antibody partially inhibits iodination in a thyroid mitochondrial-microsomal fraction, but does not inhibit NADH-dependent iodination. The immunochemical studies indicate the participation of NADPH-cytochrome c reductase in thyroidal H2O generation, and the independent existence of NADPH-dependent and NADH-dependent H2O2 generation mechanisms in the thyroid.
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PMID:Participation of NADPH-cytochrome C reductase in thyroid hormone biosynthesis. 23 16

1. Incubation of NADH-ubiquinone oxidoreductase (Complex I) with chymotrypsin caused loss of rotenone-sensitive ubiquinone-1 reduction and an increase in rotenone-insensitive ubiquinone reduction. 2. Within the same time-course, NADH-K(3)Fe(CN)(6) oxidoreductase activity was unaffected. 3. Mixing of chymotrypsin-treated Complex I with Complex III did not give rise to NADH-cytochrome c oxidoreductase activity. 4. Gel electrophoresis in the presence of sodium dodecyl sulphate revealed selective degradation of several constituent polypeptides by chymotrypsin. 5. With higher chymotrypsin concentrations and longer incubation times, a decrease in NADH-K(3)Fe(CN)(6) oxidoreductase was observed. The kinetics of this decrease correlated with solubilization of the low-molecular-weight type-II NADH dehydrogenase (subunit mol.wts. 53000 and 27000) and with degradation of a polypeptide of mol.wt. 30000. 6. Phospholipid-depleted Complex I was more rapidly degraded by chymotrypsin. Specifically, a subunit of mol.wt. 75000, resistant to chymotrypsin in untreated Complex I, was degraded in phospholipid-depleted Complex I. In addition, the 30000-mol.wt. polypeptide was also more rapidly digested, correlating with an increased rate of transformation to type II NADH dehydrogenase.
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PMID:Effects of proteolytic digestion by chymotrypsin on the structure and catalytic properties of reduced nicotinamide-adenine dinucleotide-ubiquinone oxidoreductase from bovine heart mitochondria. 41 83

The effect of thiamin deficiency on the metabolism of the oral contraceptive mestranol by female rat liver enzymes was determined. Rats were fed a diet for 3 weeks containing 0, .3, .7, 2.0, or 20 mcg thiamin/gm food before decapitation and extraction of liver microsomes. Mestranol was incubated with 1 ml microsomes from 250 mg liver and the metabolic reaction started by addition of cofactors and NADPH. Liver microsomes from rats fed a thiamin-deficient diet had 3 times the capacity to metabolize mestranol as microsomes from rats fed a thiamin-rich diet. The incremental addition of thiamin to the diet depressed mestranol 0-demethylation, NADPH cytochrome c reductase, and cytochrome P-450 content. Pair-feeding experiments indicate that the carbohydrate portion of the food is responsible for decrease in cytochrome c, while thiamin levels are responsible for changes in the other 2.
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PMID:The influence of thiamin deficiency on the metabolism of the oral contraceptive mestranol [3-methoxy-17-ethynyl-1,3,5(10)-estratrien-17 beta-o1] by female rat liver enzymes. 41 82

Hexobarbital was given to anaesthetized mice for a period of 7 h by repeated i. p. injection, first of 100 mg/kg,then several times of 50 mg/kg. A high level of hexobarbital was maintained in the liver. The activity of microsomal drug-metabolizing enzymes was induced by this treatment with hexobarbital. 30 min after a single i. p. injection of 100 mg/kg of hexobarbital, there was a significant inhibition of aminopyrine N-demethylase but none of cytochrome c and neotetrazolium reductases. Hexobarbital in vitro inhibits aminopyrine N-demethylase but not cytochrome c reductase.
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PMID:Induction of microsomal drug-metabolizing enzymes caused by hexobarbital. 41 31

Two subcellular fraction, P-1 and P-2, were isolated by differential centrifugation from 0.25 M sucrose muscle homogenates of the parasitic roundworm, Ascaris lumbricoides suum. Morphological studies indicated that P-1 fraction consisted of intact mitochondria, whereas P-2 fraction consisted almost exclusively of vesicular components. The difference spectrum of Ascaris microsomes showed a characteristic b-type cytochrome spectrum with three distinct absorption peaks at 560, 525, and 424 nm. However, the alpha-peak at 560 nm was asymmetric with a shoulder at 555 nm. This microsomal b-type cytochrome was reduced by NADH, which was inhibited by rotenone and HgCl2. The reduced b-type cytochrome was easily reoxidized by shaking. NADH-oxidase activity observed in Ascaris microsomes was inhibited by rotenone, but not by KCN, NaN3, and antimycin A. On the other hand, NADH-cytochrome c and NADH-neotetrazolium (NT) reductase activities in Ascaris microsomes were not inhibited by antimycin A and rotenone, but were inhibited by HgCl2. Further observations indicated that neither HgCl2 nor rotenone inhibited Ascaris microsomal NADH-ferricyanide (FC) reductase activity, but rabbit antibody prepared against the purified NADH-FC reductase inhibited the NADH-cytochrome c reductase activity, the reduction of b-type cytochrome and the NADH-oxidase activity, as well as microsomal NADH-FC reductase activity.
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PMID:Biochemical studies on the muscle microsomes of Ascaris lumbricoides var. suum. I. Biochemical characterization and electron transport of Ascaris microsomes. 42 35

The plasma membrane of the Ehrlich ascites tumor cell contains an NADH dehydrogenase. This activity was shown not to be due to contamination by other subcellular membranes. A variety of electron acceptors have been compared as to rate with the following result: ferricyanide greater than cytochrome c greater than cytochrome b5 greater than glyoxylate greater than dichlorophenolindophenol. Oxygen acceptance could not be detected. The optimum assay temperature and pH ranges were 30--40 degrees C and pH 6--8, respectively. With respect to either NADH or ferricyanide, the kinetics yielded linear double-reciprocal plots. Inhibition of the enzyme by sulfhydryl reagents could be blocked by excess NADH. Detergents such as Triton X-100 or cholate resulted in solubilization of the enzymatic activity, but phospholipase A2 did not. The activity differed from that of the mitochondria in that it was not inhibited by rotenone or antimycin A. The possible involvement of NADH oxidation in the energetics of plasma membrane transport is discussed.
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PMID:Electron-transferring enzymes in the plasma membrane of the Ehrlich ascites tumor cell. 42 30

A lauric acid monooxygenase which catalyzes the formation of hydroxylaurate from lauric acid has been characterized in ageing tissues of Jerusalem artichoke (Helianthus tuberosus L.) tuber. Three reaction products have been identified from the mass fragmentation pattern of their methyltrimethylsilyl derivatives: 10-hydroxylauric acid, 9-hydroxylauric acid and 8-hydroxylauric acid. Enzyme activity is located on the microsomal fraction which also carries cytochrome P-450 and NADPH cytochrome-c reductase. The apparent Km of the enzyme for lauric acid is 0.97 micronM. Laurate monooxygenation is dependent upon O2 and inhibited by CO. The latter effect is light reversible. NADPH is the preferred electron donor although appreciable NADH-sustained activity was observed. NADPH cytochrome c reductase is involved in electron transfer as evidenced by the inhibitory effects of NADP+ and oxidized cytochrome c on laurate monooxygenation. Thus, the enzyme catalyzing laurate oxidation in Jerusalem artichoke tuber tissues appears to be a typical (cytochrome P-450)-linked monooxygenase.
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PMID:A microsomal (cytochrome P-450)-linked lauric-acid-monooxygenase from aged Jerusalem-artichoke-tuber tissues. 71 Apr 15

A membrane-bound NADH dehydrogenase, solubilized and partially purified from a marine bacterium Photobacterium phosphoreum, contains FAD as the prosthetic group, and is specific for NADH. Ferricyanide, various other redox dyes and cytochrome c can act as electron acceptors. The enzymatic activity when assayed with electron acceptors other than cytochrome c, is activated by monovalent cations (Na+ and K+) and deactivated by high concentrations of monovalent anions (SCN-, NO3-, and Cl-) but not by phosphate ions. The enzymatic reaction follows a ping-pong mechanism and kinetic analysis of the enzyme showed that the activation by monovalent cations is due to increase of affinity of the enzyme for substrates; Vm was not affected. The increase of affinity was 62- and 46-fold for NADH and 57- and 31-fold for 2,6-dichlorophenol indophenol in the presence of Na+ and K+, respectively. On the other hand, NADH-cytochrome c reductase activity of the enzyme was strongly inhibited by these cations.
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PMID:Properties and kinetics of salt activation of a membrane-bound NADH dehydrogenase from a marine bacterium Photobacterium phosphoreum. 72 93

Rhodospirillum rubrum cell extracts have active NADP-reductase capable of catalyzing the diaphorase reaction in the presence of methyl viologene or benzyl viologene and NADPH-generating system. The greater part of NADP-reductase is localized in the soluble fraction of destroyed cells (90-10(3) g; 90 min). The purified preparation of NADP-reductase was found to contain 6 proteins, 4-5 of them possessing diaphorase activity. Partially purified NADP-reductase preparation with a period of half-inactivation of about two days has a molecular weight of 95 000 and absorption spectrum, characterized by two maxima at 410 and 430 nm. NADP-reductase preparation possesses also menadione-reductase activity, but showed no ability for transhydrogenase reaction and reduction of cytochrome c.
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PMID:[Purification and properties of Rhodospirillum rubrum NADP-reductase]. 81 42

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