EC:1.6.99.3 - FACTA Search

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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)

A gradient has been designed to yield two subfractions of plasma membrane vesicles from rat myometrium, a low buoyant density (8-24% sucrose) fraction N1 richer in 5'-nucleotidase and a higher buoyant density (24-30% sucrose) fraction N2, instead of a previously described fraction F1. Both N1 and N2 had very low activities of NADPH-cytochrome c reductase and succinate-cytochrome c reductase. Electron micrographs of thin sections of N1 showed clear vesicles, whereas N2 consisted of vesicles with electron-dense bodies attached to them. These plasma membrane vesicles can actively take up Ca. The active uptake of Ca was potentiated by oxalate and phosphate and abolished by the Ca ionophore A23187. Dilution of actively loaded vesicles in isotonic media containing EGTA led to loss of a small proportion of the stored Ca instantaneously and the remainder more slowly in a biphasic manner. Dilution in hypotonic media with EGTA led to a release of a much larger proportion of the accumulated Ca. A23187 at high concentrations (10 microM) caused a release of all the sequestered Ca whether the active Ca uptake had been carried out in the presence or in the absence of oxalate. A23187, 0.5 microM, released all the sequestered Ca from the vesicles that were actively loaded in the absence of oxalate, but only 37% when the vesicles were actively loaded with Ca in the presence of oxalate. Comparison of the composite plasma membrane fraction F1 (8-30% sucrose) and the subfractions N1 and N2 showed that they had different capacities for Ca uptake in the presence and absence of ATP. An attempt has been made to analyze the active Ca-uptake data in terms of various Ca pools.
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PMID:Characteristics of calcium transport and binding by rat myometrium plasma membrane subfractions. 625 67

The effect of p-toluyl m-nitro-piperazine on energy conservation processes in rat liver mitochondria is presented. The drug showed an inhibitory effect on the three segments of the respiratory chain and on the ATPase system. NADH oxidase and NADH dehydrogenase activity was inhibited 100%. The velocity and amplitude of swelling induced by glutamate, succinate, ascorbate + TMPD, and ATP was significantly changed by p-toluyl m-nitro-piperazine. It was suggested that the general action of the drug on mitochondrial metabolism would be concerning with modifications on mitochondrial membrane.
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PMID:Possible mechanism of action of piperazine derivatives on liver mitochondria. I--Effect of p-toluyl m-nitro-piperazine (p-TNP). 627 80

1. Plasma membranes were isolated from Krebs II ascite cells grown in the mouse. Cells were disrupted by nitrogen cavitation in an isotonic alkaline buffer containing magnesium and ATP. Isolation was performed in an alkaline-buffered self-generating gradient of Percoll with an angular rotor. At each step of the preparation, the pH appeared as the critical aspect of our procedure. 2. External membrane markers were concanavalin A and 5'-nucleotidase (EC 3.1.3.5). They reached a relative specific activity of 10, whereas this value was only of 0.7 for the endoplasmic reticulum marker, NADH dehydrogenase (EC 1.6.99.3). 3. Plasma membrane from 4 ml packed cells were isolated within 1 h after homogenization with good yield: 50% and 67% of total [3H]concanavalin A and 5'-nucleotidase, respectively, were recovered in the two plasma membrane fractions. 4. Electron microscopy examination showed the presence of vesicles of different sizes devoid of other structural contaminants. 5. Using the specific binding of concanavalin A to the external cell membrane, it was calculated that about 50% of the total cell phospholipid and 10% protein are located in the plasma membrane. Their sphingomyelin content is much higher than in the whole cell, in contrast to phosphatidylinositol, known as a more specific endoplasmic reticulum phospholipid.
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PMID:Isolation and characterization of plasma membranes from krebs II ascite cells using Percoll gradient. 628 35

A method has been developed for the isolation of sealed plasma membrane vesicles from rabbit white skeletal muscle. The final preparation was highly purified as indicated by enrichment of plasma membrane marker enzymes (i.e. ouabain-sensitive (Na+,K+)-ATPase, adenylate cyclase, and acetylcholinesterase). The absence of sarcoplasmic reticulum and mitochondria as contaminants was indicated by the low specific activity of marker enzymes, i.e. Ca2+-ATPase, succinate-cytochrome c reductase, and monoamine oxidase. Thin section and negative staining electron microscopy confirmed the absence of sarcoplasmic reticulum and mitochondrial contamination. The plasma membrane preparation consisted largely of sealed vesicles as observed by electron microscopy and as also demonstrated by latency of enzymic activities, which were unmasked by preincubation with detergent (sodium dodecyl sulfate). Membrane sidedness was estimated from latency of ouabain-sensitive (Na+,K+)-ATPase activity and acetylcholinesterase activity. The latency studies suggest that most of the vesicles are oriented inside out with respect to the orientation of the sarcolemma membrane in the muscle fiber. The inside-out plasma membrane vesicles actively accumulated sodium ions upon addition of ATP. The sodium ions were concentrated greater than 8-fold inside the vesicles and were released upon addition of the ionophore monensin. The sodium ions were taken up in the presence of K+ or NH4+ but not of choline. Uptake was inhibited by low concentrations of vanadate or digitoxin. The Na+ uptake was concomitant with Rb+ efflux. Therefore, the sodium ion transport and the resulting gradients formed appear to have been generated by the ouabain-sensitive (Na+,K+)-ATPase. Batrachotoxin, which opens Na+ channels in excitable tissues, prevents most of the Na+ uptake, suggesting the presence of toxin-activated Na+ channels in these plasma membrane vesicles.
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PMID:Isolation of plasma membrane vesicles from rabbit skeletal muscle and their use in ion transport studies. 629 11

The reduction and the potential autoxidation of quinoid compounds may be viewed as taking place in three cell compartments. In microsomal fractions (endoplasmic reticulum) one-electron reduction by NAPDH-cytochrome P450 reductase leads to the formation of semiquinones which rapidly react with oxygen to form the parent quinone and superoxide anions. The formation of superoxide through this futile cycle leads ultimately to other damaging species (H2O2 and .OH). A similar futile cycle in mitochondria involves NADH dehydrogenase. In this instance, mitochondria initiation of such a cycle with quinones results not only in the formation of toxic radical species but also in the diversion of electrons from phosphorylating pathways. The consequent diminution of cellular ATP may have as important a consequence with respect to the toxicity of quinones as the generation of radicals. Finally, cytosolic DT diaphorase, which carries out a two-electron reduction of quinones to more stable hydroquinones, may compete with the one-electron systems and participate in the detoxification of quinones by supplying hydroquinones for conjugation reactions. The extent of quinone-induced damage may thus vary from cell to cell depending on the integration of these pathways.
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PMID:Futile redox cycling: implications for oxygen radical toxicity. 631 61

The structural and kinetic parameters of the oxidative phosphorylation system responsible for synchronization of the respiratory chain and ATP-synthetase function in mitochondria were studied. It was shown that regulation of ATP-synthetase function by the respiratory chain can be realized only within the whole ATP-synthetase complex (F0F1). NADH dehydrogenase and succinate dehydrogenase doe not control synchronization of ATP-synthetase function in the mitochondria. Data from the inhibitory analysis suggest that the ATP-synthetase function depends on the rate of the enzyme operation but not on the redox state of the respiratory chain carriers.
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PMID:[Structural and kinetic parameters of the oxidative phosphorylation system, participating in the synchronization of mitochondrial respiratory chain and ATP-synthetase functions]. 632 63

Sarcolemmal fractions of vascular smooth muscles were prepared from porcine thoracic aortae by differential and sucrose density gradient centrifugation. In these fractions, there was a high activity of 5'-nucleotidase, a putative marker enzyme of plasma membrane, and a low activity of rotenone insensitive NADH-cytochrome c reductase a marker of sarcoplasmic reticulum. In these fractions, the Ca2+ uptake was ATP-dependent. A low concentration of saponin which inhibited Ca2+ uptake by the plasma membrane but not by the sarcoplasmic reticulum, inhibited 65% of the Ca2+ uptake of this fraction. The Ca2+ uptake of this fraction was enhanced by cAMP- and cGMP-dependent protein kinases, and by calmodulin. The cAMP-dependent protein kinase enhanced the phosphorylation of 28 and 22 kDa proteins, while the cGMP-dependent protein kinase phosphorylated the 35 kDa protein. The phosphorylation of 100, 75, 65, 41 and 22 kDa proteins was enhanced by Ca2+ and calmodulin. These results indicate that cAMP- and cGMP-dependent protein kinases as well as calmodulin play important roles in Ca2+ transport in the sarcolemma, and that the phosphorylated proteins may be associated with an enhancement of Ca2+ transport in the sarcolemma.
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PMID:Effects of cAMP- and cGMP-dependent protein kinases, and calmodulin on Ca2+ uptake by highly purified sarcolemmal vesicles of vascular smooth muscle. 632 80

Cells of the E3-24 mutant of the strain D273-10B of Saccharomyces cerevisiae, grown in a fermentable substrate not showing catabolite repression of respiration (2% galactose), are able to respire, in spite of their ubiquinone deficiency in mitochondrial membranes. Mitochondria isolated from these mutant cells oxidize exogenous NADH through a pathway insensitive to antimycin A but inhibited by cyanide. Addition of methanolic solutions of ubiquinone homologs stimulates the oxidation rate and restores antimycin A sensitivity in both isolated mitochondria and whole cells. Mersalyl preincubation of isolated mitochondria inhibits both NADH oxidation and NADH-cytochrome c oxido-reductase activity (assayed in the presence of cyanide) with the same pattern. Electrons resulting from the oxidation of exogenous NADH reduce both cytochrome b5 and endogenous cytochrome c. The increase in ionic strength stimulates NADH oxidation, which is also coupled to the ATP synthesis with an ATP/O ratio similar to that obtained with ascorbate plus N,N,N',N'-tetramethyl-p-phenylendiamine (TMPD) as substrate. The effect of cyanide on these activities and on NADH-induced endogenous cytochrome c reduction is also comparable. These results support the existence in vivo and in isolated mitochondria of a energy-conserving pathway for the oxidation of cytoplasmatic NADH not related to the dehydrogenases of the inner membrane, the ubiquinone, and the b-c1 complex, but involving a cytochrome c shuttle between the NADH-cytochrome c reductase of the outer membrane and cytochrome oxidase in the inner membrane.
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PMID:The oxidation of external NADH by an intermembrane electron transfer in mitochondria from the ubiquinone-deficient mutant E3-24 of Saccharomyces cerevisiae. 637 98

ATP promotes 45Ca uptake by the microsomal fraction from the longitudinal smooth muscle of guinea-pig ileum and this uptake is stimulated by oxalate. As the microsomal fraction is made up of various subcellular entities, we examined the localization of the Ca2+-transport activity by density gradient centrifugation, taking advantage of the selective effect of digitonin (at low concentration) on the density of plasmalemmal elements. When the 45Ca-uptake activity was measured in the absence of oxalate, its behavior in subfractionation experiments closely paralleled that of the plasmalemmal marker 5'-nucleotidase. In contrast, the additional Ca2+-transport activity elicited by oxalate behaved like NADH-cytochrome c reductase, a putative endoplasmic reticulum marker. The endoplasmic reticulum vesicles constituted only a small part of the membranes in the microsomal fraction, which explains that their Ca2+-storage capacity was not detectable in the absence of Ca2+-trapping agent. Low digitonin concentrations selectively increased the Ca2+ permeability of the plasmalemmal vesicles. The two Ca2+-transport activities were further differentiated by their distinct sensitivity of K+, vanadate and calmodulin. In this respect, the oxalate-insensitive and oxalate-stimulated Ca2+-transport systems resembled, respectively, the sarcolemmal and sarcoplasmic reticulum Ca2+ pumps in cardiac and skeletal muscle, in accordance with the subcellular locations established by density gradient centrifugation.
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PMID:Differentiation of Ca2+ pumps linked to plasma membrane and endoplasmic reticulum in the microsomal fraction from intestinal smooth muscle. 645 27

By histochemical methods and electron microscopy, the spleen of copper-loaded rat was investigated. Oxidoreducing enzymes (diaphorase, succinate dehydrogenase, lactate dehydrogenase, prolineoxidase, hydroxyproline epimerase) and phosphatases (acid, ATP-ases) were tested. In general, in the intoxicated rat, the oxidases and dehydrogenases were depressed in the splenic cells, except macrophages and endothelial cells. Prolineoxidase and hydroxyproline epimerase activities increased in reticular cells and phosphatases displayed a strong activity in all the splenic structures. Ultrastructural modifications appeared in connective fibers and some connective cells.
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PMID:Histochemical and ultrastructural data in the spleen of the copper-intoxicated rat. 646 25

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