UNIPROT:Q8NEX9 - FACTA Search

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Query: UNIPROT:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male albino rats were kept on copper-enriched diet for 2, 4, 6 and 8 weeks. Experiments were made to study the electron transported, oxidative phosphorylation and the activity of some respiratory enzymes (rotenone-insensitive NAD. H-cytochrome c-reductase, NAD. H-DCPIP-reductase, succinate-cytochrome c(DCPIP)-reductase and succinate dehydrogenase) depending on the duration of copper sulphate treatment and hepatic copper level. Copper content is found to rise as early as the 2nd week, after which it remains relatively constant. Oxygen consumption in State 3 decreases strongly during the 2nd week and remains low throughout the period studied. Oxygen consumption in State 4 also decreases in the 2nd week, after which it rises and reaches the values of the control animals. The enzyme activities studied are also strongly inhibited (32-57%) after a 14-day treatment, later they are recovered gradually, reaching 50-79% of the control values. The probable compensatory mechanism of copper metabolism in the liver and the participation of thiol groups in it are discussed.
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PMID:Effect of chronic copper loading on the functions of rat liver mitochondria. 61 29

The present work is a continuation of our studies on mitochondrial functions and enzyme activities after acute exhaustive swimming in liver and myocardium. In rat heart mitochondria the activities of SDH, cytochrome oxidase and ATPase (DNP-stimulated) increase after swimming and remain at that level until the end of the 22-hour rest period studied. The enzyme complexes--rotenone-sensitive NAD. H-cytochrome c-reductase and succinate-cytochrome c-reductase--decrease their activities in both experimental groups. The reduced activity of these two enzymes is determined by changes in this part of the respiratory chain which occur after the incorporation of DCPIP in the oxidation-reduction processes. The marker enzyme of the outer mitochondrial membranes--rotenone-insensitive NAD.H-cytochrome c-reductase--reveals unchanged activity after swimming and a 22-hour period of rest. The different changes in the activities of enzymes with different localization and organization in heart mitochondria are explained by disorganization of the inner membranes after exhaustive swimming, which could induce both activation of some enzymes and inhibition of others. The effect of certain factors during muscle exercise which could cause the established structural and functional changes in the mitochondria is discussed.
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PMID:Effect of single exhaustive swimming on mitochondrial enzyme activities in rat myocardium. 61 30

Both di- and triglycerides were synthesized when microsomes isolated from mammary glands of lactating mice were incubated with dihydroxyacetone phosphate (DHAP), 1(-14)C)palmitate, ATP, CoASH, GSH, KF, MgC12, and NADPH. When NADH replaced NADPH, glyceride synthesis was very low. In the absence of either NADPH or NADH, DHAP was acylated to palmityl-DHAP. Since microsomes do not have glycerol 3-phosphate NAD:oxidoreductase activity , we inferred that glycerol 3-phosphate (GP) is not an intermediate in triglyceride biosynthesis from DHAP. This reductase, present in the cytosol, was active only with NADH. With the same concentration of either GP or DHAP, microsomes yielded essentially similar amounts of di- and triglycerides. Mitochondria, while capable of synthesizing palmityl-DHAP, did not produce di- and triglycerides.
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PMID:Triglyceride synthesis from dihydroxyacetone phosphate and palmitate by microsomes from mammary glands of lactating mice. 62 19

NAD/P/H: quinone-oxidoreductase activity was determined in human thrombocytes using spectrophotometric and polarographic methods. Detergents, vitamins K3 and K1, ADP-induced aggregation of the thrombocytes were shown to affect the thrombocytic guinone-reductase activity. Possible localization of quinone-reductase in thrombocytes and its importance for the state of thrombocytic membrane are discussed.
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PMID:[Quinone-reducing activity of thrombocytes]. 66 65

In a detailed study focused on the methodological problems in dehydrogenase histochemistry [e.g., fixation, diffusion of enzymes and of reduced inermediates, conversion of NADPH and NADP to NADH and NAD, respectively, penetration of tetrazolium salt and formazan substantivity, 'nothing dehydrogenase' reaction, use of exogenous CoQ10 and of flavoprotein substitute (PMS)], the distribution and activity of succinate dehydrogenase, NAD(P)H-tetrazolium reductase, glucose-6-phosphate dehydrogenase, lactate dehydrogenase (H and M types), and of L-glutamate dehydrogenase (E.C.1.4.1.2 and E.C.1.4.1.3) have been investigated in the rat cerebellum. It was evident from the study that reliable results could only be obtained if all the aforementioned factors had been considered. The image of actual concentration of SDH in the neuropil of the molecular layer could only be recorded by adding CoQ10, while other structures exhibited greater balance between SDH and endogenous mitochondrial CoQ. Contrary to previous studies, a reversed localization of the activity of G-6-PDH and LDH was noticed. The elements of molecular and Purkinje layers were rich in G-6-PDH, while the granular layer was nearly depleted. The actual level of LDH could only be recorded if NADH-tetrazolium reductase was bypassed with PMS. The H and M types of LDH coexisted in the three cortical layers, the H type being prevalent and the M type attaining its highest level in synaptic glomeruli followed by the structures of the molecular layer and the Purkinje cells. High activity of GDH was noticed in Bergmann glia followed by synaptic glomeruli, while most other structures showed weak to moderate activity. The two GDH types coexisted in all structures showing activity, except for Bergmann cells, which only showed presence of the E.C. 1.4.1.3 type. Furthermore, Bergmann glia was exceptional by showing no activity of SDH and LDH, but strong activity of G-6-PDH and NADPH-tetrazolium reductase. The granular cells were exceptional by showing weak or no activity of all enzymes in question.
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PMID:Methodological aspects of the histochemical localization and activity of some cerebellar dehydrogenases. 66 87

The rabbits being repeatedly poisoned with small doses of sodium cyanide, the activity of succinic dehydrogenase in the tissues does not essentially change. The activity of NAD.H2-cytochrome-c-reductase and NAD.H2-diaphorase in the brain, myocardium and kidneys increases. Under histotoxic hypoxia the level of iron in the tissues increases by 52-93%, that of copper--by 28-36%, of zinc--by 21-74% and of cobalt by 28-40%. There existed a positive correlation between the content of iron and the activity of NAD-dependent enzymes. In nonlethal form of histotoxic hypoxia the content of nonhemin iron and the activity of NAD.H2-cytochrome-c-reductase in the mitochondria of the brain increases by 25% and 17%, respectively, and a direct correlation is revealed between them.
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PMID:[Iron, copper, zinc and cobalt content and activity of respiratory metalloenzymes in animal tissues under toxic hypoxia]. 68 69

1. In rat liver mitochondria in vitro, an activation of succinate dehydrogenase [succinate: (2,6-dichloroindophenol)oxido-reductase], an inner membrane enzyme, was induced by Ca2+ at extramitochondrial concentrations (about 1.3 micron) close to those estimated in the cytosol. 2. The activation required both substrate (succinate) and ATP, and occurred whether mitochondria were coupled (Ca2+ could be accumulated) or uncoupled (Ca2+ could not be accumulated) by classical uncouplers. 3. The activation by Ca2+ of the uncoupled mitochondria was accompanied by a modest but significant change in the mitochondrial morphology as judged from light scattering measurements and electron microscopy. 4. In the uncoupled mitochondria, oxaloacetate added externally diminished the activation by Ca2+. In addition, the amount of oxaloacetate produced endogenously from succinate via malate fell after Ca2+ and ATP addition. However, the extent of the fall in mitochondrial oxaloacetate did not correlate with the degree of activation of succinate dehydrogenase. 5. The activation by Ca2+ of the uncoupled mitochondria was accompanied by a reductive shift of pyridine nucleotide and coenzyme Q, and an oxidative shift of flavoproteins and cytochromes b, c, and a-a3. 6. In the situation where the Ca2+-induced activation of succinate dehydrogenase (and consequently succinate oxidation) took place in the uncoupled mitochondria, oxidations of 3-hydroxybutyrate and pyruvate were markedly suppressed. 7. From the above findings, it is concluded that Ca2+ action on the mitochondrial inner membrane activates mitochondrial succinate dehydrogenase, and this action produces an inhibition of electron transport between NAD and flavoprotein. In view of the location of these reactions in the inner membrane, a conformation change of the membrane is suggested as a common cause.
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PMID:Ca2+-induced activation of succinate dehydrogenase and the regulation of mitochondrial oxidative reactions. 76 52

Two methods of preparation of isolated rat liver cells were studied. In the first method, the dissociative effect of enzymes and mechanical treatment and Hanks' solution as isolation medium were used. In the second method, enzymes were replaced by compexon-ethylenediamine tetraacetate and Hanks' solution -- by 0.25 M sucrose. The cells obtained by the second method are able of oxidative phosphorylation and keep better NAD-H-cytochrom c-reductase. The fine structure of these cells revealed by means of electron microscopy analysis was well preserved.
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PMID:[Respiration and oxidative phosphorylation in isolated liver cells]. 81 24

A sporadic case of central core disease in a 5 1/2-year-old girl is reported. Clinically, a retarded motor development existed, furthermore, a muscle weakness and hypotonia of the extremities and trunk, contractures of the hip- and knee-joint,and luxation of both hip-joints. Biopsy specimens are taken from both Mm. gastrocnemii. Muscle fibres show, by morphologic examination, 95 per cent cores, which are characteristic for this myopathy. A further abnormality is seen inthe histochemical preparations for phosphorylase, succinate dehydrogenase, NAD diaphorase tetrazolium reductase, myofibrillar ATPase as well as AS-reaction with and without diastase digestion. With these techniques the muscle fibres show an uniform reaction pattern in which the activities of the oxidative andglycolytic enzymes correspond to the type I fibres of healthy persons. The cores show a lack of a activity of the oxidative and glycolytic enzymes as well as are ATPase- and PAS-negative. By reason of this histochemical behaviour it is suggested that the cores are predominantly unstructured. The cause of this disease might be complex disturbances in the neuro-muscular system manifested in the fetal period.
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PMID:[A case of central core disease. Light microscopic and histochemical studies (author's transl)]. 84 74

A 37-yr-old woman with nontoxic goiter is presented. The thyroid 131I uptake at 3 and 24 hr were, respectively, 77.1% and 81.4% dose. Thiocyanate discharged 65.5% of the accumulated 131I in 30 min. In vitro organification of iodine in the thyroid homogenate from the patient was impaired and it was restored to normal by the addition of H2O2, glucose, and glucose oxidase system, FAD, or reduced cytochrome b5. Riboflavin, FMN, oxidized cytochrome b5, oxidized or reduced cytochrome c, NAD(H), and NADP(H) were ineffective in the reaction. The microsomal NADH-cytochrome b5 reductase activity was definitely low in the patient's thyroid. It was augmented to a normal level by incubation of the microsomes with FAD for 30 min or more. The activities of thyroid peroxidase, G6-PD, 6-PGD, catalase, protease, and NADPH-cytochrome c reductase were within normal limits. The major thyroid protein was normal thyroglobulin which could be readily iodinated in the presence of H2O2 and horse radish peroxidase. These findings suggest the correlation of an iodide organification defect with a cytochrome b5 reductase deficiency. Administration of high doses of FAD led to the restoration of thyroidal iodide organification mechanism associated with an increased thyroid hormone production and to a marked decrease of the goiter. Riboflavin was given without effect even at a high dosage level. Consequently, it seems likely that the deficient cytochrome b5 reductase activity in this patient is due to a defect in the biosynthesis of FAD, the coenzyme of the reductase, from riboflavin.
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PMID:Deficient cytochrome b5 reductase activity in nontoxic goiter with iodide organification defect. 116 26

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