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)

1. Whole cells of Methylomonas Pl1 contained ubiquinone, identified as ubiquinone-8. No naphthaquinone was detected. Ubiquinone was located predominantly in the particulate fraction, which also contained most of the NADH oxidase activity. 2. Aerobic incubation of cells with formaldehyde or methanol resulted in about 20% reduction of ubiquinone, irrespective of the presence or absence of dinitrophenol. On inhibition of the respiration by cyanide, ubiquinone became partly reduced by endogenous substrates (15--25%), and a further reduction occurred only in the presence of formaldehyde (up to 60%). When endogenous substrates were completely exhausted, then 44 and 23% of ubiquinone was reduced by formaldehyde or methanol respectively. 3. The difference spectra at room and liquid-N2 temperatures revealed the presence of cytochrome b and two cytochromes c (c-552.5 and c-549) all tightly bound to the membrane. Cytochrome c-552.5 was also found in the soluble fraction. 4. Redox changes of cytochromes b and c, with methanol or formaldehyde as substrates, respond to the aerobic and anaerobic states of the cell and to KCN inhibition in a manner characteristic of the electron carriers of the respiratory chain. 5. The merging point for electron transport from NADH dehydrogenase and formaldehyde dehydrogenase is suggested to be at the level of ubiquinone.
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PMID:The respiratory chain of a newly isolated Methylomonas Pl1. 41 43

Techniques for the ultrastructural demonstration of dehydrogenases in cerebral cortex are described. The best fixation for good fine structural preservation and retention of LDH and NADH-diphorase was obtained by perfusion with a misture of formaldehyde and glutaraldehyde and for SDH by perfusion with formaldehyde. Comparison of incubation conditions showed that consistent results were obtained using enzyme markers NBT and DS-NBT for LDH and NADH-diaphorase: DS-NBT was more satisfactory than NBT and BSPT for SDH. Penetration of incubation media was improved by Triton X-100: DMSO and ultrasonic treatment were less effective. The techniques enabled the first electron cytochemical demonstration of dehydrogenases in different elements of prefixed cerebral cortex. Ultrastructural sites of enzyme activities were localized within cristae and inter-membrane spaces of mitochondria in nerve cell cytoplasm and its processes, oligodendrocytes and astrocytes. Authenticity of the ultrastructural sites was confirmed by four different control experiments.
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PMID:Ultrastructural demonstration of dehydrogenases in rat cerebral cortex. 47 91

In order to localize 3beta-hydroxysteriod dehydrogenase activity on the ultrastructural level, sections of Newt and Rat adrenocortical tissues, fixed in a mixture of glutaraldehyde (0.25%) and formaldehyde (1%), were incubated in a medium containing namely a 3beta-hydroxysteroid as substrate, NAD, potassium ferricyanide as final electron acceptor and copper sulfate. In some experiments, phenazine methosulfate (PMS), an electron carrier which can substitute for the activity of the endogenous NADH-diaphorase, is added at various concentrations to the incubation medium. A final precipitate of copper ferrocyanide is observed in the immediate vicinity of the tubules of the smooth endoplasmic reticulum, or in contact with their external faces. The reaction product can also be seen in mitochondrial cristae. The reaction does not take place in incubation media lacking substrate or containing cyanoketone, a specific inhibitor of 3beta-hydroxysteroid dehydrogenase. the addition of PMS to the incubation medium increases the intensity of the reaction, but does not modify the localization of the precipitate.
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PMID:Ultracytochemical demonstration and probable localization of 3beta-hydroxysteroid dehydrogenase activity with a ferricyanide technique. 83 7

The ability of hepatic microsomes from senescent rats to metabolize the two potent hepatocarcinogens dimethylnitrosamine (DMN) and aflatoxin B1 (AFB1) was investigated. Seven and 24-month-old male Sprague-Dawley rats were used. Liver weights, and microsomal protein per gram tissue weight were higher, whereas cytochrome P-450 and cytochrome b5 were significantly lower in older rats. Glutathione S-transferases and NADPH cytochrome c reductase activities were dramatically reduced in senescent rats. There was no difference in the formation of formaldehyde from DMN in vitro (31 vs. 34 pmol/nmol P-450) between the young and old rats. In contrast, increased microsome mediated binding of AFB1 to DNA was observed in older rats (116 vs. 228 pmol/nmol P-450) suggesting the possibility of either quantitative or qualitative changes in P-450 species. Additionally the cytoplasmic GSH S-transferases from older rats affected lower inhibition of binding of AFB1 to DNA. These results indicated differential abilities in the hepatic microsomal metabolism of these two carcinogens which may cause differential effects of these carcinogens in senescent rats.
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PMID:Differential effects on the metabolism of dimethylnitrosamine and aflatoxin B1 by hepatic microsomes from senescent rats. 310 18

A study was made of the effect of chronic administration of the hypolipidemic drug clofibrate on the activity and intracellular localization of rat liver aldehyde dehydrogenase. The enzyme was assayed using several aliphatic and aromatic aldehydes. Clofibrate treatment caused a 1.5 to 2.3-fold increase in the liver specific aldehyde dehydrogenase activity. The induced enzyme has a high Km for acetaldehyde and was found to be located in peroxisomes and microsomes. Clofibrate did not alter the enzyme activity in the cytoplasmic fraction. The total peroxisomal aldehyde dehydrogenase activity increased 3 to 4-fold under the action of clofibrate. Disruption of the purified peroxisomes by the hypotonic treatment or in the alkaline conditions resulted in the release of catalase from the broken organelles, while aldehyde dehydrogenase as well as nucleoid-bound urate oxidase and the peroxisomal membrane marker NADH:cytochrome c reductase remained in the peroxisomal 'ghosts'. At the same time, treatment by Triton X-100 led to solubilization of the membrane-bound NADH:cytochrome c reductase and aldehyde dehydrogenase from intact peroxisomes and their 'ghosts'. These results indicate that aldehyde dehydrogenase is located in the peroxisomal membrane. The peroxisomal aldehyde dehydrogenase is active with different aliphatic and aromatic aldehydes, except for formaldehyde and glyceraldehyde. The enzyme Km values lie in the millimolar range for acetaldehyde, propionaldehyde, benzaldehyde and phenylacetaldehyde and in the micromolar range for nonanal. Both NAD and NADP serve as coenzymes for the enzyme. Aldehyde dehydrogenase was inhibited by disulfiram, N-ethylmaleimide and 5,5'-dithiobis(2-nitrobenzoic)acid. According to its basic kinetic properties peroxisomal aldehyde dehydrogenase seems to be similar to a clofibrate-induced microsomal enzyme. The functional role of both enzymes in the liver cells is discussed.
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PMID:Intraparticulate localization and some properties of a clofibrate-induced peroxisomal aldehyde dehydrogenase from rat liver. 399 98

The cytochemical localization, by conventional methods, of lactate and glyceraldehyde-3-phosphate dehydrogenases is limited, firstly, by the solubility of these enzymes in aqueous media and, secondly, by the dependence of the final electron flow from reduced nicotinamide-adenine dinucleotide (NADH) to the tetrazolium on tissue diaphorase activity: localization is therefore that of the diaphorase, which in rabbit adductor magnus is mitochondrial. NADH has been found to have great affinity to bind in the sarcoplasmic reticulum, and, therefore, if it is generated freely in the incubation media containing 2,2',5,5'-tetra-p-nitrophenyl-3,3'-(3,3'-dimethoxy-4,4'-phenylene)-ditetrazolium chloride (TNBT) and N-methyl phenazonium methyl sulfate (PMS), it can bind there and cause a false staining. Since such a production of NADH can readily occur in the incubation media for glycolytic dehydrogenases due to diffusion of these soluble enzymes from tissue sections, the prevention of enzyme solubilization is extremely important. Fixation in formaldehyde prevented such enzyme diffusion, while at the same time sufficient activity persisted to allow for adequate staining. The incubation media contained PMS, so that the staining system was largely independent of tissue diaphorase activity. Application of these methods to adductor magnus of rabbit revealed by light microscopy, for both enzymes, a fine network which was shown by electron microscopy to represent staining of the sarcoplasmic reticulum. Mitochondria also reacted. These findings add further support for the notion that the sarcoplasmic reticulum is probably involved in glycolytic activity.
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PMID:Cytochemical localization of two glycolytic dehydrogenases in white skeletal muscle. 428 29

Renal microsomal aminopyrine demethylation activities of several species were measured by a sensitive radiometric method using [dimethylamino-14C-]aminopyrine as a substrate and 2,4-dinitrophenylhydrazine as a trapping agent for the formaldehyde formed. The activity was highest in hamsters (0.75 nmol min-1 mg-1 protein) and that in rabbits, rats, mice, and guinea-pigs was 19.7, 7.0, 4.5 and 3.7%, respectively, of the hamster values. These species differences did not correlate with species differences in cytochrome P-450 content or in NADPH cytochrome c reductase activity. Aminopyrine demethylation activities in sliced renal tissues of several species were also compared. This activity was also found highest in hamsters (0.54 nmol min-1 g-1 wet tissue) and the activities in rabbits, rats, and guinea-pigs were 9.2, 1.8 and 2.5%, respectively, of the hamster values.
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PMID:Renal aminopyrine demethylation in several species determined by a sensitive radiometric method. 615 Sep 77

Streptococcus sanguis, whose growth appears to be independent of the availability of iron, makes no hemes, contains neither catalase nor peroxidase, and can accumulate millimolar concentration levels of H2O2 during aerobic growth. It possesses a single manganese-containing superoxide dismutase whose concentration can be varied over a 50-100-fold range by manipulating the availability of oxygen during growth. Cell extracts contain a soluble NADH-plumbagin diaphorase which mediates O2- production in vitro and presumably also in vivo. Plumbagin increased oxygen consumption by S. sanguis and imposed an oxygen-dependent toxicity. Cells grown aerobically and containing elevated levels of superoxide dismutase were resistant to this toxicity. Dimethyl sulfoxide, which was shown to permeate S. sanguis freely, was used as an indicating scavenger of OH. An in vitro enzymic source of O2- plus H2O2 generated formaldehyde from dimethyl sulfoxide, an indication of OH. production. Either superoxide dismutase or catalase inhibited this OH. production and iron salts augmented it. Intact, aerobic cells of S. sanguis also gave evidence of OH. production, in the presence of plumbagin, but all of it appeared to be generated outside the cells. In addition, 0.5 M dimethyl sulfoxide did not diminish the oxygen-dependent toxicity of plumbagin. We conclude that, in S. sanguis, O2- can exert a toxic effect independent of the production of OH..
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PMID:Oxygen toxicity in Streptococcus sanguis. The relative importance of superoxide and hydroxyl radicals. 627 24

Male and female Sprague-Dawley rats were fed synthetic diets deficient in or supplemented with thiamin for 2 or 3 weeks. One group of rats receiving the thiamin-supplemented diet was pair-fed the amount consumed by rats fed the thiamin-deficient diet. One-half of each group was administered phenobarbital sodium for four consecutive days prior to decapitation. Rats fed the thiamin-deficient diet had higher NADPH cytochrome c reductase, aniline hydroxylase, and ethylmorphine N-demethylase activities than those fed high levels of thiamin. In addition, these animals generally responded more vigorously to induction by phenobarbital in their synthesis of microsomal protein, and increased activities of NADPH cytochrome c reductase, aniline hydroxylase, and ethylmorphine N-demethylase. Cytochrome P-450 concentration was higher in the microsomes from thiamin-deficient rats and was induced to a greater degree by phenobarbital than in microsomes from rats fed thiamin-supplemented diets ad libitum. Phenobarbital-enhanced metabolism of N-nitrosodimethylamine (DMN) by liver 9,000 g supernatant as evidenced by approximately two-fold increases in formaldehyde formed per gram liver. This increase in DMN metabolism in male rats is due at least in part to the increased concentration of microsomal protein, since metabolism per milligram microsomal protein was not increased. The fact that DMN metabolism per unit of microsomal cytochrome P-450 in phenobarbital-treated animals is decreased to about one-half of that in controls indicates that DMN is either metabolized by a non-cytochrome P-450-dependent system or that it is metabolized by a form of P-450 not induced by phenobarbital. A sex difference was evident in these experiments, females generally being more sensitive to the influence of varying levels of dietary thiamin. Also female rats but not males fed high-thiamin diets responded to phenobarbital with increased DMN metabolism per milligram microsomal protein.
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PMID:Influence of dietary thiamin on phenobarbital induction of rat hepatic enzymes responsible for metabolizing drugs and carcinogens. 643 11

The NADPH diaphorase (NADPHd) reaction for nitric oxide synthase (NOS) visualization suffers from the circumstance that the diaphorase activity of NOS represents only part of the total diaphorase activity, and so far all efforts to make the reaction more specific for routine studies failed. The present investigation describes a simple procedure for mouse tissue, which allows the selective staining primarily of neurons, vascular endothelial cells and macula densa cells, those cells where constitutive NOS has been described reliably. In this method unfixed cryosections and 0.5-1% phosphate-buffered formaldehyde containing 0.5 mg NADPH/1 ml and 1 mg nitro BT/1 ml are used. Compared to strong prefixation with formaldehyde after which many additional cells are still positive for NADPHd, presence of formaldehyde in the incubation medium obviously allows the selective reaction of NOS-positive cells. In conclusion, compared with the original technique a more specific method for the visualization of the NADPHd activity of NOS appears to be available now and can be used for NOS studies in all kinds of mammalian species.
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PMID:When NADPH diaphorase (NADPHd) works in the presence of formaldehyde, the enzyme appears to visualize selectively cells with constitutive nitric oxide synthase (NOS). 753 34

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