EC:1.6.99.1 - FACTA Search

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Query: EC:1.6.99.1 (NADPH-diaphorase)
3,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intrinsic NADPH diaphorase activity is a component of the membrane-bound NAD(P)H:O2 oxidoreductase of human neutrophils. NADH-specific diaphorase activity is also present in membrane fractions rich in oxidoreductase activity. Studies were undertaken to determine whether the NADH diaphorase might also be intrinsic to the oxidoreductase. The latter diaphorase was freed from the membrane by detergent extraction and partially purified approximately 80-fold. Its apparent molecular weight following solubilization in deoxycholate and Tween-20 was 204 000 +/- 10 000. The specific activity of the partially purified diaphorase with ferricyanide as electron acceptor was 7.6 X 10(3) mU/mg protein, its pH optimum was 7.0, and its Km for NADH was 13 microM. It is completely devoid of NADPH diaphorase activity, lacks the capacity to reduce molecular oxygen, yet readily reduces ferricyanide, 2,6-dichlorophenolindophenol and ferricytochrome c. Whereas the NADH diaphorase was freed from the particulate fraction of cell lysates by extraction in 10 mM Tris-HCl buffer (pH 8.6) made up in 15% glycerol and 0.5% Tween-20, NADPH-dependent diaphorase and superoxide-generating activities also present in the membrane were not. These observations make it unlikely that the principal membrane-bound NADH diaphorase found in human neutrophils is a component of the NAD(P)H:O2 oxidoreductase, despite its common association in the same particulate fraction of cell lysates.
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PMID:Purification and resolution of NADH diaphorase activity from NADPH diaphorase-linked: O2 oxidoreductase activity of human neutrophils. 384 37

The clonal study of L cell culture has shown that the clone-forming cells are heterogeneous both in form and in the activities of enzymes (succinate dehydrogenase, lactate dehydrogenase, NAD- and NADP-diaphorase) which were determined by histochemical methods. The morphological heterogeneity is characteristic for clones with not less than 10 cells manifesting itself earlier and heterogeneity as to the activity of the studied enzymes--later, in clones with more than 15-20 cells.
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PMID:[Heterogeneity of L-line cells in the early stages of clone development]. 384 12

Up to now, more than 40.000 determinations of urinary estrogens (E1 + E2) have been carried out in routine clinical analysis by the enzymatic method using estradiol dehydrogenase. This method makes use of the transhydrogenating activity of the placental enzyme: this enzyme transfers hydrogen from NADP to NAD with recycling of the specific substrate (E1 + E2). For several years the necessary reagents have been commercially available in the form of a kit. Nonetheless, various improvements have been made to the measurement of reduced NAD, which accumulates in the reaction medium and is directly proportional to the concentration of the two estrogens. Three protocols are available at present: Spectrophotometric measurement at 340 nm (initial technique); Colorimetric measurement at 492 nm. The pink colour measured arises from the reduction of a tetrazolium salt (INT) by reduced NAD in a coupled system using diaphorase; Measurement by bioluminescence of the light energy liberated on the reduction of flavin derivatives by NADH. The reaction is mediated by various enzymes isolated from marine bacteria (FMN oxidoreductase and luciferase) in the presence of an aliphatic aldehyde (decanal). The procedure for each of these protocols is described as well as the means for controlling the linearity of the reaction. The choice of protocol is determined by the biological fluid available, the speed of response desired and the cost of the analysis.
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PMID:[Various protocols for determining estrogens by the enzymatic method using estradiol dehydrogenase. Respective procedures and advantages]. 386 35

Histochemical study of enzymatic activity in the myocardium was performed in sudden cardiac death. Human hearts in which there were no macroscopic and histological focal or diffuse changes served as material. The following enzymes were studied in the anterior or posterior walls of the left ventricle or in the interventricular septum: succinate dehydrogenase, lactate dehydrogenase (LDH), beta-hydroxybutyrate dehydrogenase (OHBDH), alpha-glycerophosphate- and glucose-6-phosphate dehydrogenase, NAD-diaphorase and phosphorylase. Increased activity of OHBDH and LDH was found: 36,0 and 22,6% higher than in trauma and brain hemorrhage that served as control. These alterations seem to be connected with the increase of blood content of fatty acids, and lactate as a response to the catecholamine excess. Foci of an acute ischemia were found in the interventricular septum in 80% of cases in which phosphorylase was revealed. The appearance of the ischemic foci was obviously due to the coronary arteries contraction.
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PMID:[Histoenzymological characteristics of the myocardium in sudden cardiac death]. 405 12

Monodehydroascorbate reductase (EC 1.6.5.4) was purified from cucumber fruit to a homogeneous state as judged by polyacrylamide gel electrophoresis. The cucumber monodehydroascorbate reductase was a monomer with a molecular weight of 47,000. It contained 1 mol of FAD/mol of enzyme which was reduced by NAD(P)H and reoxidized by monodehydroascorbate. The enzyme had an exposed thiol group whose blockage with thiol reagents inhibited the electron transfer from NAD(P)H to the enzyme FAD. Both NADH and NADPH served as electron donors with Km values of 4.6 and 23 microM, respectively, and Vmax of 200 mol of NADH and 150 mol of NADPH oxidized mol of enzyme-1 s-1. The Km for monodehydroascorbate was 1.4 microM. The amino acid composition of the enzyme is presented. In addition to monodehydroascorbate, the enzyme catalyzed the reduction of ferricyanide and 2,6-dichloroindophenol but showed little reactivity with calf liver cytochrome b5 and horse heart cytochrome c. The kinetic data suggested a ping-pong mechanism for the monodehydroascorbate reductase-catalyzed reaction. Cucumber monodehydroascorbate reductase occurs in soluble form and can be distinguished from NADPH dehydrogenase, NADH dehydrogenase, DT diaphorase, microsome-bound NADH-cytochrome b5 reductase, and NADPH-cytochrome c reductase by its molecular weight, amino acid composition, and specificity of electron acceptors and donors.
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PMID:Monodehydroascorbate reductase from cucumber is a flavin adenine dinucleotide enzyme. 405 27

The skin surface biopsy technique has been used to investigate the erythrasma organism in situ in the stratum corneum in 11 patients. Staining by PAS and Gram stain showed the presence of a large number of organisms arranged haphazardly in some areas and in microcolonies in others. With the scanning electron microscope it was possible to see that smooth filamentous chains of microorganisms had penetrated horn cells and caused disturbance of the surface structure of these cells.Enzyme histochemical tests showed that the erythrasma microorganism possessed a strong reactivity for NAD diaphorase and other mitochondrial enzymes. The reactivity was focal confirming a complex subcellular organization of organelles. It is suggested that the erythrasma microorganism secretes a mucopolysaccharide sheath in some circumstances.
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PMID:The erythrasma microorganism in situ: studies using the skin surface biopsy technique. 411 42

Evidence suggesting that Bacillus polymyxa has an active ferredoxin-NADP(+) reductase (EC 1.6.99.4) was obtained when NADPH was found to provide reducing power for the nitrogenase of this organism; direct evidence was provided when it was shown that B. polymyxa extracts could substitute for the native ferredoxin-NADP(+) reductase in the photochemical reduction of NADP(+) by blue-green algal particles. The ferredoxin-NADP(+) reductase was purified about 80-fold by a combination of high-speed centrifugation, ammonium sulfate fractionation, and chromatography on Sephadex G-100 and diethylaminoethyl-cellulose. The molecular weight was estimated by gel filtration to be 60,000. A small amount of the enzyme was further purified by polyacrylamide gel electrophoresis and shown to be a flavoprotein. The reductase was specific for NADPH in the ferredoxin-dependent reduction of cytochrome c and methyl viologen diaphorase reactions; furthermore, NADP(+) was the acceptor of preference when the electron donor was photoreduced ferredoxin. The reductase also has an irreversible NADPH-NAD(+) transhydrogenase (reduced-NADP:NAD oxidoreductase, EC 1.6.1.1) activity, the rate of which was proportional to the concentration of NAD (K(m) = 5.0 x 10(-3)M). The reductase catalyzed electron transfer from NADPH not only to B. polymyxa ferredoxin but also to the ferredoxins of Clostridium pasteurianum, Azotobacter vinelandii, and spinach chloroplasts, although less effectively. Rubredoxin from Clostridium acidi-urici and azotoflavin from A. vinelandii also accept electrons from the B. polymyxa reductase. The pH optima for the various reactions catalyzed by the B. polymyxa ferredoxin-NADP reductase are similar to those of the chloroplast reductase. NAD and acetyl-coenzyme A, which obligatorily activate NADPH- and NADH-ferredoxin reductases, respectively, in Clostridium kluyveri, have no effect on B. polymyxa reductase.
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PMID:Purification and characterization of ferredoxin-nicotinamide adenine dinucleotide phosphate reductase from a nitrogen-fixing bacterium. 414 48

Erythrocytic NADH methemoglobin diaphorase acquires NADH-dichlorophenolindophenol diaphorase activity when enzyme-associated NAD is removed. This transformation is reversible and can be mediated by membrane NAD glycohydrolase (EC 3.2.2.5) in hemolysates as well as in intact cells exposed to hydrogen peroxide. It is abolished either in NADH methemoglobin diaphorase deficiency or in NAD(P) glycohydrolase (EC 3.2.2.6) deficiency which is common in Afro-American but not in European-American adults. Activities of erythrocytic NADP glycohydrolase and NAD glycohydrolase appear to depend on a single membrane enzyme.
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PMID:NAD(P) glycohydrolase deficiency in human erythrocytes and alteration of cytosol NADH-methemoglobin diaphorase by membrane NAD-glycohydrolase activity. 436 76

Isozymes of several different classes of enzymes in partially purified protein extracts of five strains of Schizophyllum commune, isogenic except for genes controlling sexual morphogenesis, were separated on polyacrylamide gel by disc electrophoresis. After staining, isozyme patterns were compared on the bases of the presence or absence, electrophoretic mobility (R(f) values), and relative activities of specific isozymes. Differences in isozyme patterns in 14 enzymes, i.e., NADH-dehydrogenase, NADPH-dehydrogenase, a number of NAD and NADP-dependent dehydrogenases, acid phosphatases, leucine aminopeptidase, and esterases, were correlated with the operation or inactivity of the A-and B-sequences of sexual morphogenesis. In only a single instance, i.e., phenolases, no marked differences could be correlated with sexual morphogenesis.
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PMID:Isozyme patterns and sexual morphogenesis in Schizophyllum. 439 67

By preparative polyacrylamide gel electrophoresis at pH 8.5, and in the absence of nickel ions, two types of subunit dimers of the NAD-linked hydrogenase from Nocardia opaca 1b were separated and isolated, and their properties were compared with each other as well as with the properties of the native enzyme. The intact hydrogenase contained 14.3 +/- 0.4 labile sulphur, 13.6 +/- 1.1 iron and 3.8 +/- 0.1 nickel atoms and approximately 1 FMN molecule per enzyme molecule. The oxidized hydrogenase showed an absorption spectrum with maxima (shoulders) at 380 nm and 420 nm and an electron spin resonance (ESR) spectrum with a signal at g = 2.01. The midpoint redox potential of the Fe-S cluster giving rise to this signal was +25 mV. In the reduced state, hydrogenase gave characteristic low-temperature (10-20 K) and high-temperature (greater than 40 K) ESR spectra which were interpreted as due to [4Fe-4S] and [2Fe-2S] clusters, respectively. The midpoint redox potentials of these clusters were determined to be -420 mV and -285 mV, respectively. The large hydrogenase dimer, consisting of subunits with relative molecular masses Mr, of 64000 and 31000, contained 9.9 +/- 0.4 S2- and 9.3 +/- 0.5 iron atoms per protein molecule. This dimer contained the FMN molecule, but no nickel. The absorption and ESR spectra of the large dimer were qualitatively similar to the spectra of the whole enzyme. This dimer did not show any hydrogenase activity, but reduced several electron acceptors with NADH as electron donor (diaphorase activity). The small hydrogenase dimer, consisting of subunits with Mr of 56000 and 27000, was demonstrated to have substantially different properties. For iron and labile sulphur average values of 3.9 and 4.3 atoms/dimer molecule have been determined, respectively. The dimer contained, in addition, about 2 atoms of nickel and was free of flavins. In the oxidized state this dimer showed an absorption spectrum with a broad band in the 400-nm region and a characteristic ESR signal at g = 2.01. The reduced form of the dimer was ESR-silent. The small dimer alone was diaphorase-inactive and did not reduce NAD with H2, but it displayed high H2-uptake activities with viologen dyes, methylene blue and FMN, and H2-evolving activity with reduced methyl viologen. Hydrogen-dependent NAD reduction was fully restored by recombining both subunit dimers, although the reconstituted enzyme differed from the original in its activity towards artificial acceptors and the ESR spectrum in the oxidized state.
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PMID:Content and localization of FMN, Fe-S clusters and nickel in the NAD-linked hydrogenase of Nocardia opaca 1b. 608 43

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