Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.8.1.4 (diaphorase)
 2,754 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glycine-utilizing bacterium Clostridium litoralis contained two enzyme systems for oxidizing dihydrolipoamide. The first one was found to be a genuine dihydrolipoamide dehydrogenase, present only in low amounts. This enzyme had the typical dimeric structure with a subunit molecular mass of about 53 kDa; however, it reacted with both NADP (Km 0.11 mM) and NAD (Km 0.5 mM). The reduction of pyridine nucleotides by dihydrolipoamide was the strongly preferred reaction. A second dihydrolipoamide-oxidizing enzyme system consisted of the interaction of two proteins, the previously described NADP(H)-dependent electron-transferring flavoprotein (D. Dietrichs, M. Meyer, B. Schmidt, and J. R. Andreesen, J. Bacteriol. 172:2088-2095, 1990) and a thioredoxin. This enzyme system was responsible for most of the dihydrolipoamide dehydrogenase activity in cell extracts. The thioredoxin did not bind to DEAE, was heat stable, and had a molecular mass of about 15 kDa. N-terminal amino acid analysis of the first 38 amino acid residues resulted in 38% homology to Escherichia coli thioredoxin and about 76% homology to a corresponding protein isolated from the physiologically close related Eubacterium acidaminophilum. The protein of the latter organism had a molecular mass of about 14 kDa and stimulated the low dihydrolipoamide dehydrogenase activity of the corresponding flavoprotein. By this interaction with NADPH-dependent flavoproteins, a new assay system for thioredoxin was established. A function of thioredoxin in glycine metabolism of some anaerobic bacteria is proposed.
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PMID:Thioredoxin elicits a new dihydrolipoamide dehydrogenase activity by interaction with the electron-transferring flavoprotein in Clostridium litoralis and Eubacterium acidaminophilum. 199 93

The authors studied the cytotoxic function, activity of NAD- and NADP-diaphorases in the peripheral blood lymphocytes in 57 patients with B-cellular variant of chronic lympholeukoses and found a significant reduction of the natural killer activity of lymphocytes, increased activity of NADP-diaphorase. Reduction of natural killer activity in patients with B-cell variant of chronic lympholeukoses did not depend on the activity of membrane diaphorases in peripheral blood lymphocytes.
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PMID:[NAD- and NADP-diaphorase activity in the peripheral blood lymphocytes of patients with the B-cell variant of chronic lympholeukemia]. 204 48

Topical application on rat oral mucosa of the chemical 4-nitroquinoline 1-oxide (4NQO) has been shown to produce squamous cell carcinomas on the posterior tongue and/or the posterior hard palate. 4NQO is broken down in vivo by a diaphorase, 4NQO reductase (E.C.1.6.99.2), to produce an active molecule believed to be responsible for carcinogenesis. It has been shown that there are higher concentrations of 4NQO reductase in oesophageal mucosa compared with elsewhere in the gastrointestinal tract. The purpose of these experiments was to compare the distribution of certain diaphorases in the oral mucosa. Samples of rat tongue and cheek epithelia were homogenized, then ultracentrifuged to provide mixed cytosol and microsome fractions from the epithelial cells. A spectrophotometer was used to measure the variation in absorbance at 340 nm of NADH consumed by reduction of 4NQO by enzymes present in the tissue extracts. A histochemical technique was used to compare the activity of NADH diaphorase, NADP diaphorase and glucose-6-phosphate dehydrogenase at different sites of the oral mucosa. Statistical analysis showed that there were significant (P less than 0.01) differences between the activities of all three enzymes at different sites of the oral mucosa. In each case, a higher activity was found at the sites of high incidence of squamous cell carcinoma. A lower activity was found at sites where carcinomas did not occur.
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PMID:A relationship found between intra-oral sites of 4NQO reductase activity and chemical carcinogenesis. 211 96

The 45 kDa diphenylene iodonium-binding flavoprotein of the human neutrophil superoxide-generating oxidase has been purified by affinity chromatography. The polypeptide was eluted from Blue Memsep or 2',5'-ADP-agarose columns with either NADP or low concentrations of the specific inhibitor diphenylene iodonium. The purified protein was shown to bind FAD at a ratio of 1.09 mol of FAD/mol of protein. The reconstituted flavoprotein had a fluorescence spectrum similar, but not identical, to that of free FAD. It had an isoelectric point of approx. 4.0. The reconstituted flavoprotein displayed no diaphorase activity towards a range of artificial electron acceptors. Polyclonal antibodies raised against the pure protein inhibited superoxide generation by solubilized oxidase in a dose-dependent manner, and inhibited superoxide generation when incubated with either cytosol or membrane fractions in a reconstituted system. These antibodies precipitated the 45 kDa polypeptide together with a haem-containing 23 kDa protein thought to be the small subunit of cytochrome b-245. Antibodies raised against cytochrome P-450 reductase also precipitated these two polypeptides. These results are consistent with the 45 kDa polypeptide being the flavoprotein of the neutrophil superoxide-generating oxidase.
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PMID:Purification and some properties of the 45 kDa diphenylene iodonium-binding flavoprotein of neutrophil NADPH oxidase. 215 84

Studies of limited proteolysis on purified ferredoxin-NADP+ reductase with various proteases were performed in the presence and absence of the flavoprotein ligands. Both the diaphorase and the ferredoxin-dependent activities of the enzyme were followed as well as the proteolytic pattern in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, with further characterization of the polypeptides produced. These experiments revealed that only two regions of the flavoprotein are susceptible to the attack of the proteases used: (a) the N-terminal chain which can be cleaved only up to Lys35 and (b) the sequence segment 235-250. It can be inferred that these regions are on the surface of the protein molecule and presumably have a very flexible conformation adaptable to the protease active site. The deletion of the N-terminal region up to Thr36 of the native reductase (Mr 35,000) produced a truncated form (Mr about 31,000) which had full diaphorase activity but lost the capacity to catalyze the ferredoxin-dependent reaction. Proteolytic cleavage at the 235-250 segment of the sequence yielded a nicked protein (Mr about 30,000 by gel filtration; 23,000 plus 7,000 in denaturing electrophoresis) devoid of both activities. Protection by the flavoprotein ligands implies that the 23-35 region of the sequence is part of the binding site for ferredoxin and the 235-250 polypeptide segment is in the NADP(+)-binding site.
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PMID:Structure-function relationship in spinach ferredoxin-NADP+ reductase as studied by limited proteolysis. 219 29

Three different dihydrolipoamide dehydrogenases were purified to homogenity from the anaerobic glycine-utilizing bacteria Clostridium cylindrosporum, Clostridium sporogenes, and Peptostreptococcus glycinophilus, and their basic properties were determined. The enzyme isolated from P. glycinophilus showed the properties typical of dihydrolipoamide dehydrogenases: it was a dimer with a subunit molecular mass of 53,000 and contained 1 mol of flavin adenine dinucleotide and 2 redox-active sulfhydryl groups per subunit. Only NADH was active as a coenzyme for reduction of lipoamide. Spectra of the oxidized enzyme exhibited maxima at 230, 270, 353, and 453 nm, with shoulders at 370, 425, and 485 nm. The dihydrolipoamide dehydrogenases of C. cylindrosporum and C. sporogenes were very similar in their structural properties to the enzyme of P. glycinophilus except for their coenzyme specificity. The enzyme of C. cylindrosporum used NAD(H) as well as NADP(H), whereas the enzyme of C. sporogenes reacted only with NADP(H), and no reaction could be detected with NAD(H). Antibodies raised against the dihydrolipoamide dehydrogenase of C. cylindrosporum reacted with extracts of Clostridium acidiurici, Clostridium purinolyticum, and Eubacterium angustum, whereas antibodies raised against the enzymes of P. glycinophilus and C. sporogenes showed no cross-reaction with extracts from 42 organisms tested.
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PMID:Purification and comparative studies of dihydrolipoamide dehydrogenases from the anaerobic, glycine-utilizing bacteria Peptostreptococcus glycinophilus, Clostridium cylindrosporum, and Clostridium sporogenes. 229 86

Isolated intact chloroplasts are able to desaturate fatty acids in newly synthesized monogalactosyl diacylglycerol. By analogy with other systems, this desaturation might be expected to involve electron carriers. The effects of electron transport inhibitors on chloroplast lipid-linked desaturation were therefore investigated. Because desaturation occurs in the dark and is not inhibited by compounds specifically blocking photosystem II, it appeared that the photosystems themselves did not participate. Several compounds that prevent enzymatic reoxidation of plastoquinol in thylakoid membranes at the Qz site or withdraw electrons from this lipophilic electron carrier inhibited desaturation in the dark. This inhibition could not be reversed by adding chemicals that donate electrons to photosystem I, indicating that carriers past the cytochrome b/f complex were not involved. Inhibitors of cyclic electron transport interfered with desaturation only at rather high concentrations or not at all. Additional compounds that block the reduction of quinones were slightly inhibitory. Dithioerythritol and KCN also inhibited desaturation, although their exact mode of action is unknown. Dinitrophenyl-iodonitrothymol (DNP-INT), stigmatellin, and myxothiazol did not block desaturation at concentrations that inhibited photosynthetic electron flow through the Qz site very efficiently. Therefore, these results argue against an involvement of the Qz site in desaturation. Accordingly, the inhibition by the other compounds seemingly interfering at the same site as well as that by electron acceptors could be due to interference at a different redox step in desaturation. In vitro these compounds function also as electron acceptors in diaphorase reactions catalyzed by ferredoxin:NADP oxidoreductase.
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PMID:Interference of electron transport inhibitors with desaturation of monogalactosyl diacylglycerol in intact chloroplasts. 265 Jun 25

Spinach leaf ferredoxin and ferredoxin:NADP oxidoreductase as well as pig adrenodoxin and adrenodoxin reductase have been purified to homogeneity. Ferredoxin-NADP reductase and adrenodoxin-NADP reductase can perform the same diaphorase reactions (dichloroindophenol, ferricyanide and cytochrome c reduction) albeit not with the same efficiency. Despite the differences in their redox potentials, animal and plant ferredoxins can be used as heterologous substrates by the ferredoxin-NADP reductases from both sources. In heterologous systems, however, the ferredoxin/adrenodoxin concentrations must be increased approximately 100-fold in order to reach rates similar to those obtained in homologous systems. Ferredoxin and adrenodoxin can form complexes with the heterologous reductases as demonstrated by binding experiments on ferredoxin-Sepharose or ferredoxin-NADP-reductase-Sepharose and by the realization of difference spectra. Adrenodoxin also weakly substitutes for ferredoxin in NADP photoreduction, and can be used as an electron carrier in the light activation of the chloroplastic enzyme NADP-dependent malate dehydrogenase. In addition adrenodoxin is a good catalyst of pseudocyclic photophosphorylation, but not of cyclic phosphorylation and can serve as a substrate of glutamate synthase. These results are discussed with respect to the known structures of plant and animals ferredoxins and their respective reductases.
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PMID:On the specificity of pig adrenal ferredoxin (adrenodoxin) and spinach ferredoxin in electron-transfer reactions. 283 37

Ferredoxin-NADP reductase from Euglena gracilis Klebs var. Bacillaris Cori purified to apparent homogeneity, yields a typical 36 kDa and an unusual 15 kDa polypeptide on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, exhibits a typical flavoprotein spectrum, contains FAD, and catalyzes NADPH-dependent iodonitrotetrazolium-violet diaphorase, NADPH-specific ferredoxin-dependent cytochrome-c-550 reductase and NADPH-NAD transhydrogenase activities. Rabbit antibody to the purified FNR blocks these activities specifically and also blocks the iodonitrotetrazolium-violet diaphorase activity of Euglena chloroplast completely. The low iodonitrotetrazolium-violet diaphorase activity in the plastidless mutant, W10BSmL, is mitochondrial and is not specifically blocked by the ferredoxin-NADP reductase antibody. Dark-grown non-dividing (resting) wild-type Euglena cells show a 4-fold increase in ferredoxin-NADP reductase activity during greening at 970 lx. Half of the low ferredoxin-NADP reductase activity in dark-grown cells is initially soluble, but by the end of chloroplast development nearly all of the enzyme is membrane-bound. The binding of ferredoxin-NADP reductase on exposure to light correlates with the extent of thylakoid membrane formation. Immunoblots of wild-type extracts during greening indicate that the 15 kDa polypeptide increases in the same manner as the extent of reductase binding to thylakoid membranes.
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PMID:Purification, properties, and cellular localization of Euglena ferredoxin-NADP reductase. 312 Jul 72

A method is described for increasing the response of enzyme immunoassays employing alkaline phosphatase as the label initiating 2 sequential catalytic reactions. First, NADP is dephosphorylated to produce NAD, which catalytically activates a specific redox-cycle involving the enzymes alcohol dehydrogenase and diaphorase. During each turn of the cycle 1 molecule of a tetrazolium salt is reduced to an intensely coloured formazan. The method is capable of detecting as little as 0.01 amol alkaline phosphatase, and when applied to an immunoassay for TSH a sensitivity (zero + 2.5 standard deviations) of 0.0013 mIU/l was obtained.
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PMID:Enzyme amplification for immunoassays. Detection limit of one hundredth of an attomole. 351 23


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