Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.1.1.1 (alcohol dehydrogenase)
 9,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antisera were raised against several purified, high specific activity isozymes of maize alcohol dehydrogenase (ADH1). The various antisera had different effects on the activity of immunoprecipitated ADH. One antiserum completely inactivated maize ADH. This inactivation could be blocked by preincubation of the enzyme with NAD+, its cofactor, or with NADP. The different antisera were used to analyze variant forms of ADH1. Isozymes having lowered specific activity were activated to wild-type levels by precipitation of the enzymes with noninactivating antisera. Isozymes having no detectable ADH activity (CRM+ nulls) were activated by immunoprecipitation with noninactivating antisera when preincubated with NAD+ or NADP. All of the CRM+ nulls were shown to be unable to bind NAD+, a flaw which can account for their lack of activity. The results indicate that a conformational equilibrium between active and inactive forms of maize ADH in solution controls the specific activity of the various isozymes. Both NAD+ and antibodies raised against high specific activity enzymes can interact with low activity isozymes to shift the balance of the equilibrium toward the active form, thus increasing their specific activity.
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PMID:Activation of low and null activity isozymes of maize alcohol dehydrogenase by antibodies. 347 28

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

Seven multiforms of indanol dehydrogenase were isolated in a highly purified state from male rabbit liver cytosol. The enzymes were monomeric proteins with similar molecular weights of 30,000-37,000 but with distinct electrophoretic mobilities. All the enzymes oxidized alicyclic alcohols including benzene dihydrodiol and hydroxysteroids at different optimal pH, but showed clear differences in cofactor specificity, steroid specificity, and reversibility of the reaction. Two NADP+-dependent enzymes exhibited both 17 beta-hydroxysteroid dehydrogenase activity for 5 alpha-androstanes and 3 alpha-hydroxysteroid dehydrogenase activity for 5 beta-androstan-3 alpha-ol-17-one. Three of the other enzymes with dual cofactor specificity catalyzed predominantly 5 beta-androstane-3 alpha,17 beta-diol dehydrogenation. The reverse reaction rates of these five enzymes were low, whereas the other two enzymes, which had 3 alpha-hydroxysteroid dehydrogenase activity for 5 alpha-androstanes or 3(17)beta-hydroxysteroid dehydrogenase activity for 5 alpha-androstanes, highly reduced 3-ketosteroids and nonsteroidal aromatic carbonyl compounds with NADPH as a cofactor. All the enzymes exhibited Km values lower for the hydroxysteroids than for the alicyclic alcohols. The results of kinetic analyses with a mixture of 1-indanol and hydroxysteroids, pH and heat stability, and inhibitor sensitivity suggested strongly that, in the seven enzymes, both alicyclic alcohol dehydrogenase and hydroxysteroid dehydrogenase activities reside on a single enzyme protein. On the basis of these data, we suggest that indanol dehydrogenase exists in multiple forms in rabbit liver cytosol and may function in in vivo androgen metabolism.
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PMID:Isolation of multiple forms of indanol dehydrogenase associated with 17 beta-hydroxysteroid dehydrogenase activity from male rabbit liver. 352 67

Four major and four minor dihydrodiol dehydrogenases, with similar apparent molecular weights of 28,000 to 34,000 but with different charges, were purified from male guinea pig liver cytosol. One of the minor enzymes catalyzed only the oxidation of benzene dihydrodiol with a high Km value of 5.0 mM and was identified immunologically with aldehyde reductase. The other enzymes oxidized xenobiotic alicyclic alcohols and 17 beta-hydroxysteroids as well as benzene dihydrodiol. These enzymes exhibited higher affinity for 17 beta-hydroxysteroids than for alicyclic alcohols and benzene dihydrodiol, and immunologically cross-reacted with testosterone 17 beta-dehydrogenase purified from the same source. Four major enzymes and one minor with Km values for benzene dihydrodiol of about 0.2 mM, possessed specificity for 5 beta-androstane--17 beta-hydroxysteroids and dual cofactor requirement, whereas the other two minor enzymes with high Km values of over 5 mM showed apparent NADP and 5 alpha-androstane specificity. The dihydrodiol dehydrogenase activity was localized in the cytosol of liver. The results indicate that the hepatic oxidation of dihydrodiols in the guinea pig is mediated by cytosolic testosterone 17 beta-dehydrogenase isozymes and aldehyde reductase. Testosterone 17 beta-dehydrogenase immunologically identical to the liver enzymes was detected only in kidney, whereas aldehyde reductase was detected in all tissues of the guinea pig.
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PMID:Dihydrodiol dehydrogenases in guinea pig liver. 353 6

The mutagenic activity of diethanolnitrosamine (NDELA), a carcinogenic compound which leads to inconsistent results in standard in vitro procedures was tested in vitro and in animal-mediated assays with the indicator strain Escherichia coli (E. coli) K-12 343/113. This strain allows the simultaneous detection of forward and back mutations arising in several genes of the E. coli chromosome. In animal-mediated assays in which mice were used as hosts for i.v. injected E. coli indicator cells, s.c. application of NDELA induced a dose dependent increase of galactose fermenting mutants in cells recovered from the livers of animals exposed for 3 h to the mutagen. Comparison with results obtained with diethylnitrosamine (DENA) in the same test system revealed that the two compounds apparently cause different types of mutagenic lesions. Induction of arg+ mutations by DENA and several other aliphatic nitrosamines is mainly due to base pair substitutions, whereas NDELA is rather mutagenic in the galRs system. This latter system is, in addition, sensitive to frameshifts and deletions. These differences in mutagenic specificity suggest that NDELA and DENA, although structurally closely related, are activated via different molecular mechanisms. In fact, evidence is accumulating that alcohol dehydrogenase (ADH) could be involved in the activation of NDELA. On the other hand, the effective mutagenesis of NDELA obtained in vitro with E. coli upon addition of rat liver microsomal fraction would not be expected if ADH is involved in the activation since the S-9 Mix used in the present experiments was devoid of cofactors (NAD, NADP), necessary to accomplish oxidation by ADH. Therefore, further in vivo studies were performed, in which pyrazole, a potent blocker of ADH, was administered prior (1 and 24 h) to the injection of the mutagen. The observation that a dose dependent increase of mutants in the liver (and to a lower extent in the spleens) of treated animals takes place under conditions in which ADH activity is blocked, whereas several microsomal enzymes are stimulated, indicated that besides oxidation of NDELA by ADH other metabolic activation pathways are involved. Apparently enzymes contained in the liver homogenate, possibly NADPH dependent enzymes of the microsomal ethanol oxidizing system, play an important role in the formation of mutagenic metabolites of NDELA.
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PMID:Studies on the metabolic activation of diethanolnitrosamine in animal-mediated and in vitro assays using Escherichia coli K-12 343/113 as an indicator. 353 44

NADP+-dependent dihydrodiol dehydrogenase (trans-1,2-dihydrobenzene-1,2-diol: NADP+ oxidoreductase, EC 1.3.1.20) activity in the cytosol of guinea-pig testis was separated into two major and two minor peaks by Q-Sepharose chromatography; one minor form was immunologically cross-reacted with hepatic aldehyde reductase. The two major enzyme forms were purified to homogeneity. One form, which had the highest amount in the tissue, was a monomeric protein with a molecular weight of 32,000 and isoelectric point of 4.2, showed strict specificity for benzene dihydrodiol and NADP+, and reduced pyridine aldehydes, glyceraldehyde and diacetyl at low rates. Another form, with a molecular weight of 36,000 and isoelectric point of 5.0, oxidized n-butanol, glycerol and sorbitol as well as benzene dihydrodiol in the presence of NADP+ or NAD+, and exhibited much higher reductase activity towards various aldehydes, aldoses and diacetyl. The pI 5.0 form was more sensitive to inhibition by sorbinil and p-chloromercuriphenyl sulfonate than the pI 4.2 form and was activated by sulfate ion. The two enzymes did not catalyze the oxidation of hydroxysteroids and xenobiotic alicyclic alcohols and were immunologically different from hepatic 17 beta-hydroxysteroid-dihydrodiol dehydrogenase. The results indicate that guinea-pig testis contains at least two dihydrodiol dehydrogenases distinct from the hepatic enzymes, one of which, the pI 5.0 enzyme form, may be identical to aldose reductase.
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PMID:Purification and properties of two multiple forms of dihydrodiol dehydrogenase from guinea-pig testis. 354 26

An aldehyde derivative of riboflavin was covalently attached by reductive alkylation to soluble polycationic supports. The flavopolymers so obtained were stable under operational conditions. The catalytic efficiency towards oxidation of NADH by these flavopolymers was demonstrated, and the kinetic parameters (Km and kcat) revealed an overall catalytic efficiency (kcat/Km) 185-fold greater compared to riboflavin. Various factors affecting the chemical regeneration of NAD+ from NADH such as pH, ionic strength, nature of the buffer etc. were studied. The most interesting result was the highly favourable influence of borate ions which increased the reaction rate by a factor 2-4 compared to the other buffers. The flavopolymers are very effective for in situ recycling of NAD(P)+. With up to 300-fold NADH----NAD+ conversions for the system using yeast alcohol dehydrogenase and up to 1500-fold NADPH----NADP+ regenerations for the system using glucose-6-phosphate dehydrogenase. These flavopolymers are superior to previous chemical recycling systems.
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PMID:Use of a polymer-bound flavin derivative for the rapid regeneration of NAD(P)+ from NAD(P)H in dehydrogenase systems. 356 67

The kinetic mechanism of the major sheep liver aldehyde reductase (ALR1) was studied with three aldehyde substrates: p-nitrobenzaldehyde, pyridine-3-aldehyde and D-glucuronate. In each case the enzyme mechanism was sequential and product-inhibition studies were consistent with an ordered Bi Bi mechanism, with the coenzymes binding to the free enzyme. Binding studies were used to investigate the interactions of substrates, products and inhibitors with the free enzyme. These provided evidence for the binding of D-glucuronate, L-gulonate and valproate, as well as NADP+ and NADPH. The enzyme was inhibited by high concentrations of D-glucuronate in a non-competitive manner, indicating that this substrate was able to bind to the free enzyme and to the E X NADP+ complex at elevated concentrations. Although the enzyme was inhibited by high pyridine-3-aldehyde concentrations, there was no evidence for the binding of this substrate to the free enzyme. Sheep liver ALR1 was inhibited by the ionized forms of alrestatin, sorbinil, valproate, 2-ethylhexanoate and phenobarbitone, indicating the presence of an anion-binding site similar to that described for the pig liver enzyme, which interacts with inhibitors and substrates containing a carboxy group. Sorbinil, valproate and 2-ethylhexanoate inhibited the enzyme uncompetitively at low concentrations and non-competitively at high concentrations, whereas phenobarbitone and alrestatin were non-competitive and uncompetitive inhibitors respectively. The significance of these results with respect to inhibitor and substrate binding is discussed.
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PMID:Kinetic mechanism of sheep liver NADPH-dependent aldehyde reductase. 359 33

17 Leishmania stocks isolated from the Andean and Amazonean region of Peru were compared isoenzymatically with reference stocks of New World Leishmania subspecies by ultra-thin-layer isoelectric focusing. The enzymes tested were: non-specific esterase (NSE), alcohol dehydrogenase (ADH) (NADP+), glucosephosphate isomerase (GPI) and superoxide dismutases (SOD). Two enzymes, GPI and SOD, gave a promising tool for differentiation of the majority of subspecies. These enzymes classify the stocks from Peru into the L. brasiliensis complex. However, none of the Peruvian stocks were absolutely identical to the reference stocks. Further specific enzyme patterns were found which may probably be an expression of greater heterogeneity of Leishmania parasites than is known today. There were neither correlation between clinical manifestation and enzymic patterns of stocks nor differences between stocks from the Andean or Amazonean region of Peru.
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PMID:Isoenzyme studies on Leishmania stocks from Peru by ultrathin-layer isoelectrofocusing. 360 38

The effects of taurine, its initial precursor L-cysteine, and the major metabolite taurocholic acid on two ethanol-mediated responses in rodents were studied. Administration of a single dose of taurocholic acid reduced voluntary intake of a 5% ethanol solution by the rat. In the mouse, taurine had no effect on alcohol drinking or on the central depressant action of ethanol, as measured by the duration of ET-produced loss of the righting reflex. Likewise, taurocholic acid and L-cysteine did not significantly influence the duration of ethanol-narcosis time from control mice. Also studied were the effects of acute and short-term (7 or 10 days) administration of these compounds on hepatic ethanol and acetaldehyde metabolizing enzymes. Short-term administration of an equimolar concentration of taurine enhanced endogenous NADP-linked rat liver aldehyde dehydrogenase (L-ALDH) as contrasted with inhibition of the same enzyme by L-cysteine. Short-term (7 days) treatment with L-cysteine induced rat liver NAD-linked ALDH, but acute (single dose) treatment did not. Taurocholic acid short-term administration caused an induction and an inhibition of endogenous mouse liver alcohol dehydrogenase (L-ADH) and L-ALDH, respectively. The results suggest that taurine does not directly interact with ethanol. However, its major metabolite, taurocholic acid, may cause rapid metabolic conversion of ethanol to acetaldehyde by induction of L-ADH, which is then slowly metabolized due to a concomitant inhibition of L-ALDH. This may cause a build-up of acetaldehyde and thereby produce adverse reactions similar to those resulting from the combination of disulfiram and ethanol.
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PMID:Differential response of NADP-linked hepatic aldehyde dehydrogenase toward taurine: implication for behavioural effects of ethanol. 362 78


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