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)

D-Erythrulose reductase of beef liver was crystallized from ammonium sulfate solution at pH 8.17. The crystals are needle-shaped. The enzyme protein contains 851 amino acid residues per mole of the enzyme: Lys28, His11, Arg52, Asp79, Thr58, Ser56, Glu68, Pro20, Gly80, Ala107, Val112, Met24, Ile31, Leu88, Tyr7, Phe22, Trp4, and Cys4. The enzyme is inactivated by exposure to temperatures below 12degrees. The inactivation is accelerated by increasing the salt concentration and decreasing the enzyme concentration. The pH of the medium also has a pronounced effect, the maximum stability of the enzyme is obtained at pH 8.5. NADP+ protected the enzyme from cold inactivation at all stages of the process and also afforded protection against inactivation by heat and pH. The cold inactivation of the enzyme is accompanied by dissociation of the enzyme protein to subunits.
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PMID:Studies on D-tetrose metabolism. VI. Crystallization and some properties of D-erythrulose reducatase from beef liver. 0 10

Investigation of NADP-dependent aldehyde reductase activity in mouse liver led to the finding that two distinct reductases are separable by DE52 ion exchange chromatography. Aldehyde reductase I (AR I) appears in the effluent, while aldehyde reductase II (AR II) is eluted with a salt gradient. By several procedures AR II was purified over 1100-fold from liver supernatant fraction, but AR I could be pruified only 107-fold because of its instability. The two enzymes are different in regard to pH optimum, substrate specificity, response to inhibitors, and reactivity with antibody to AR II. While both enzymes utilize aromatic aldehydes well, only AR II ACTS ON D-glucuronate, indicating that it is the aldyhyde reductase recently reported to be identical to NADP-L-gulonate dehydrogenase. The presence of two NADP-linked aldehyde reductases in liver has apparently not heretofore been reported.
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PMID:Resolution and partial characterization of two aldehyde reductases of mammalian liver. 1 91

EUE cells from a human heteroploid line cultured in hypertonic medium (0.274 M NaCl) modify their lipid pattern: sulfolipid concentration reaches 86 to 90 microgram/mg protein whilst it ranges between 19 to 32 microgram/mg in cells cultured in isotonic medium. Ganglioside concentration reaches 2.6 nmoles of sialic acid/mg protein (after 75 days) and 13 (after 85 days) in hypertonic saline medium. Whilst it is 0.5 in isotonic medium. Phospholipid concentration does not show any similar change. Cytoenzymatic analysis reveals that dehydrogenases (lactate, G-6-P dehydrogenases, tetrahydrofolate reductase and NADH diaphorase) appear strongly enhanced in cells grown on hypertonic medium. On the contrary higher acid phosphatase and ATPase activity was demonstrable in cells grown on isotonic medium. These results are similar (except for ATPase activity) to those observed in salt secreting glands involved in strong osmotic work. The results are discussed in relation to the problem of energy supply in cells performing osmotic work.
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PMID:Biochemical and histochemical features of human cultured cells (EUE) adapted to hypertonic medium. 15 74

We have shown (Seybert, D., Lambeth, D., and Kamin, H. (1978), J. Biol. Chem. 253, 8355-8358) that, whereas the 1:1 complex between adrenodoxin reductase and adrenodoxin is the active species for cytochrome c reduction, the complex is not sufficient to allow cytochrome P-45011 beta-mediated hydroxylations;adrenodoxin in excess of reductase is required. In the present studies, reduction by NADPH of excess adrenodoxin is shown to occur at a rate sufficient to support both cytochrome P-450 11 beta-mediated hydroxylation of deoxycorticosterone, and cytochrome P-450sec-mediated side chain cleavage of cholesterol. Oxidation-reduction potential and ion effect studies indicate that the mechanism of steroidogenic electron transport involves an adrenodoxin electron "shuttle" rather than a macromolecular complex of reductase, adrenodoxin, and cytochrome. The oxidation-reduction potential of adrenodoxin is shifted about -100 mV when bound to reductase, and reduction of the iron-sulfur protein thus promotes dissociation of the complex. The rate of adrenodoxin reduction is first stimulated, then inhibited by increasing salt; the effect is ion-specific, with Ca2+ approximately Mg2+ greater than Na+ greater than NH/+. Similar ion-specific rate effects are observed for both of the cytochrome P-450-mediated hydroxylations, indicating that the same reduction mechanism is required for these reactions. Increasing salt concentrations caused dissociation of the complex; dissociation of the form of the complex containing reduced adrenodoxin occurred at lower salt concentrations than that containing oxidized adrenodoxin. The order of effectiveness of ions in causing dissociation is the same as the order for stimulation of adrenodoxin reduction, suggesting a dissociation step in the mechanism. This proposed model, together with dissociation constants for the form of the complex containing either oxidized or reduced adrenodoxin, allows accurate prediction of the salt rate effects curve. For all ions, an activity maximum is seen at the ion concentration which produces the largest molar difference between associated-oxidized and dissociated-reduced states, and the model predicts the positions of the maxima for adrenodoxin reduction, 11 beta-hydroxylation, and side chain cleavage. Thus reduction-induced dissociation of adrenodoxin from adrenodoxin reductase appears to be a required step in steroidogenic electron transport by this system, and a role for adrenodoxin as a mobile electron shuttle is proposed.
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PMID:Ionic effects on adrenal steroidogenic electron transport. The role of adrenodoxin as an electron shuttle. 22 62

Alloxan is an inhibitor of the enzyme xanthine: NAD+ oxido reductase (E.C.1.2.1.37). Alloxan acts as an electron acceptor and competes "in vitro" with the tetrazolium salt used as electron acceptor in the assay system used for the determination of the dehydrogenase activity of the enzyme. The alloxan inhibition was reverted when phenazine methosulfate (PMS) was added to the system.
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PMID:Kinetic studies of the blood serum xanthine dehydrogenase inhibition by alloxan (2,4,5,6-tetraoxypyrimidine 5,6-dioxyuracil). 23 88

The chromogen ABTS is the di-ammonium salt of 2,2'-azino-di[3-ethyl-benzthiazolin-sulfonic acid (6)] routinely used in the "glucose-oxidase assay" with the peroxidase (GOD-Perid method, Boehringer). 1. The specific property of ABTS to give a stable radical cation by oxidation with hydrogen peroxide in the presence of peroxidase was used to design a kinetic method, for enzyme-activity determinations. 2. The assay is suitable for the specific oxido-reductase using oxygen as acceptor, known also as "aerobic transhydrogenases" which are H2O2 formers (EC 1.-.3.-). 3. L-Amino acid: oxygen oxidoreductase (deaminating) (EC 1.4.3.2), was used throughout, being a representative model for such determinations.
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PMID:[A kinetic method for the determination of the activity of "aerobic transhydrogenases" (author's transl)]. 24 20

The uptake of androgens into the nuclei of caput epididymis, ventral prostate, seminal vesicle and testis was studied by recirculating physiological and pharmacological concentrations of [3H]testosterone in an artificial medium through the lower half (hemicorpus) of castrated or hypophysectomized rats. The accumulation of dihydrotestosterone in accessory sex organ nuclei was saturable, inhibited by perfusion of excess testosterone or cyproterone acetate, and associated with binding to 3S salt-extractable molecules. In castrated preparations the mean saturation levels (pmol/mg DNA) were different in the three organs: seminal vesicle, 2.8; ventral prostate, 1.8; caput epididymis, 0.9. The saturation level was significantly lower in ventral prostate of hypophysectomized rats (1.2) treated with testosterone to regenerate the accessory sex organs. Testosterone was the major nuclear androgen in the testes of mature hypophysectomized preparations perfused with testosterone. Although there was a large amount of nonspecific accumulation, testosterone binding to 3S molecules was shown by sucrose gradient centrifugation. Binding of dihydrotestosterone to 3S molecules in testicular nuclei was also demonstrated. The ratio of dihydrotestosterone to testosterone was different in immature and mature testicular nuclei and was altered by treatments known to affect testicular 5 alpha-reductase activity. The results suggest that in rat accessory sex organs and immature testis the major active androgen is dihydrotestosterone, whereas in mature testis it is testosterone. The shift in the predominant nuclear androgen in the testis from dihydrotestosterone to testosterone is most simply explained by the maturational change in 5 alpha-reductase activity.
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PMID:Nuclear accumulation of androgens in perfused rat accessory sex organs and testes. 40 Oct 23

Porcine liver dihydrofolate reductase has been purified 18,000-fold to homogeneity. The properties of the purified enzyme were compared to those of dihydrofolate reductase from L1210 cells, the only mammalian reductase for which complete amino acid sequence data are available. The enzymes are very similar when compared on the basis of mechanism and kinetic constants, molecular weights, isoelectric points, and stimulation by salt. A comparison of the amino acid sequences of both enzymes shows an overall identity of 89%. Thus, the similarities seen in inhibitor-binding profiles of mammalian enzymes reflect the close relationship of these enzymes at the molecular level.
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PMID:Porcine liver dihydrofolate reductase. Purification, properties, and amino acid sequence. 50 Jun 53

Ferredoxin immobilized on Sepharose 4B was prepared by reaction of CNBr-Sepharose 4B with spinach ferredoxin. The ferredoxin-Sepharose 4B conjugated ferredoxin-NADP+ reductase (NADPH: ferredoxin oxidoreductase, [EC 1.6.7.1]) in dilute buffer solution and released it in high salt concentrations. A novel method of preparation for the reductase was established by a combination of affinity adsorption on the ferredoxin-Sepharose 4B column with usual purification procedures. It was found using the new method, that there are two forms of ferredoxin-NADP+ reductase, FNR I and FNR II, in spinach. Comparative studies of the two components suggest that FNR I may be a dimer of FNR II.
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PMID:Ferredoxin-Sepharose 4B as a tool for the purification of ferredoxin-NADP+ reductase. 63 27

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

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