Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C1332347 (ADH)
2,230 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Sm. lipolytica one NAD+-dependent and three NADP+-dependent alcohol dehydrogenases are detectable by polyacrylamide gelelectrophoresis. The NAD+-dependent ADH (ADH I), with a molecular weight of 240,000 daltons, reacts more intensively with long-chain alcohols (octanol) than with short-chain alcohols (methanol, ethanol). The ADH I is not or only minimally subject to glucose repression. Besides the ADH I band no additional inducible NAD+-dependent ADH band is gel-electrophoretically detectable during growth of yeast cells in medium containing ethanol or paraffin. The ADH I band is very probably formed by two ADH enzymes with the same electrophoretic mobility. The NADP+-dependent alcohol dehydrogenases (ADH II--IV) react with methanol, ethanol and octanol with different intensity. In polyacrylamide gradients two bands of NADP+-dependent ADH are detectable: one with a molecular weight of 70,000 daltons and the other with 120,000 daltons. The occurrence of the three NADP+-dependent alcohol dehydrogenases is regulated by the carbon source of the medium. Sm. lipolytica shows a high tolerance against allylalcohol. Resistant mutants can be isolated only at concentrations of 1 M allylalcohol in the medium. All isolates of allylalcohol-resistant mutants show identical growth in medium containing ethanol as the wild type strain.
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PMID:Alcohol dehydrogenase (ADH) in yeasts. II. NAD+-and NADP+-dependent alcohol dehydrogenases in Saccharomycopsis lipolytica. 4 98

The changes in the specific activity of alcohol dehydrogenase (ADH-I and ADH-II) and aldehyde dehydrogenases [AIDH-NADP+ and AIDH-NAD(P)+] from Saccharomyces cerevisiae during the first 48 h of fermentation of grape must were investigated. The biosynthesis of ADH-I and AIDH-NADP+ took place basically during the adaptation of the yeasts to the must (first 4 h), while that of ADH-II occurred immediately after exponential growth (after 12 h). From the products produced by the yeast, only the specific rate of production of ethanol was found to be directly related to the specific activity of ADH-I.
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PMID:Alcohol and aldehyde dehydrogenase from Saccharomyces cerevisiae: specific activity and influence on the production of acetic acid, ethanol and higher alcohols in the first 48 h of fermentation of grape must. 227 91

Culture forms of bat-trypanosomes of the species T. dionisii, T. vespertilionis and T.c. marinkellei were compared isoenzymatically by isoelectrofocusing. The enzymes tested were: nonspecific esterase (NSE, E.C.3.1.1.), phosphoglucomutase (PGM, E.C. 2.7.5.1), glucose-6-phosphate dehydrogenase (G-6-PD, E.C. 1.1.1.49), glucosephosphate isomerase (GPI, E.C. 5.3.1.9), malate dehydrogenase (MDH, E.C. 1.1.1.37), alcohol dehydrogenase (NADP+) (ADH, E.C. 1.1.1.2). Their enzyme types were related to those of T. cruzi. The comparison of enzyme patterns of the six enzymes has shown that each species was characterized by species-specific enzyme profiles. Among the stocks of the European species, T. dionisii, and T. vespertilionis, variations of the enzyme patterns of PGM, G-6-PD and GPI suggesting that the final status of this subspecies is probably not yet established. In relation to T. cruzi it has been found that T. dionisii showed identical enzyme profiles with group II of T. cruzi. For T. vespertilionis no enzyme types identical with T. cruzi were detectable. T.c. marinkellei showed only identical enzyme patterns to T. cruzi-group I by the enzymes NSE and GPI.
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PMID:Comparison of isoenzymes of some species of the subgenus schizotrypanum from bats by isoelectrofocusing. 622 26

The effects of anaerobic, semi-aerobic and short aeration fermentation conditions and the addition of ergosterol and oleic acid to musts on the specific activity of alcohol and aldehyde dehydrogenase (ADH and ALDH) from two yeast species, Saccharomyces cerevisiae and Torulaspora delbrueckii, were studied. ADH I biosynthesis only occurred during the first few hours of fermentation. ADH II from S. cerevisiae and ALDH-NADP+ from the two yeast species behaved as constitutive enzymes under all fermentation conditions. ADH II from T. delbrueckii was only synthesized in small amounts, and its activity was always lower than in S. cerevisiae, where it was responsible for the termination of alcoholic fermentation during the steady growth phase.
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PMID:Influence of fermentation conditions on specific activity of the enzymes alcohol and aldehyde dehydrogenase from yeasts. 841 48

In this paper we cloned, sequenced and expressed a novel Entamoeba histolytica alcohol dehydrogenase gene (Ehadh3). Ehadh3 has a predicted 383 amino acids open reading frame, encoding for a 42.3 kDa protein. The deduced amino acid sequence showed 24 to 26% identity to other type III alcohol dehydrogenases found in prokaryotic and lower eukaryotic organisms, but not in mammalia. There are at least two Ehadh3 gene copies in the genome, but only a 1.2 kb transcript was detected. The EhADH3 fusion protein showed a NADP+(-)dependent ADH activity. Ehadh3 may be a good target for the developing of anti-E. histolytica drugs, without producing damage to the human.
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PMID:Cloning and expression of an Entamoeba histolytica NAPD+(-)dependent alcohol dehydrogenase gene. 861 19

The Thermoanaerobacter ethanolicus 39E adhB gene encoding the secondary-alcohol dehydrogenase (secondary ADH) was overexpressed in Escherichia coli at more than 10% of total protein. The recombinant enzyme was purified in high yield (67%) by heat-treatment at 85 degrees C and (NH4)2SO4 precipitation. Site-directed mutants (C37S, H59N, D150N, D150Eand D150C were analysed to test the peptide sequence comparison-based predictions of amino acids responsible for putative catalytic Zn binding. X-ray absorption spectroscopy confirmed the presence of a protein-bound Zn atom with ZnS1(imid)1(N,O)3 co-ordination sphere. Inductively coupled plasma atomic emission spectrometry measured 0.48 Zn atoms per wild-type secondary ADH subunit. The C37S, H59N and D150N mutant enzymes bound only 0.11, 0.13 and 0.33 Zn per subunit respectively,suggesting that these residues are involved in Zn liganding. The D150E and D150C mutants retained 0.47 and 1.2 Zn atoms per subunit, indicating that an anionic side-chain moiety at this position preserves the bound Zn. All five mutant enzymes had </= 3% of wild-type catalytic activity, suggesting that the T. ethanolicus secondary ADH requires a properly co-ordinated catalytic Zn atom. The His-59 and Asp-150 mutations also altered secondary ADH affinity for propan-2-ol over a 140-fold range, whereas the overall change in affinity for ethanol spanned a range of only 7-fold, supporting the importance of the metal in secondary ADH substrate binding. The lack of significant changes in cofactor affinity as a result of these catalytic Zn ligand mutations suggested that secondary ADH substrate-and cofactor-binding sites are structurally distinct. Altering Gly198 to Asp reduced the enzyme specific activity 2.7-fold, increased the Km(app) for NADP+ 225-fold, and decreased the Km(app) for NAD+ 3-fold, supporting the prediction that the enzyme binds nicotinamide cofactor in a Rossmann fold. Our data indicate therefore that, unlike the liver primary ADH,the Rossmann-fold-containing T. ethanolicus secondary ADH binds its catalytic Zn atom using a sorbitol dehydrogenase-like Cys-His-Asp motif and does not bind a structural Zn atom.
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PMID:Biophysical and mutagenic analysis of Thermoanaerobacter ethanolicus secondary-alcohol dehydrogenase activity and specificity. 930 20

An NADP+-dependent alcohol dehydrogenase (allyl-ADH) was isolated from the cultured cells of Nicotiana tabacum. The allyl-ADH was found to be efficient for the dehydrogenation of secondary allylic alcohols rather than saturated secondary alcohols and it was specific for the S-stereoisomer of the alcohols. The enzyme catalyzed the reversible reaction whereby the carbonyl group of enones is reduced to the corresponding allylic alcohol or vice versa. Two possible primary structures of the allyl-ADH were deduced by the sequence analyses of full-length cDNAs (allyl-ADH1 and ally-ADH2), which were cloned by the PCR method. These analyses indicated that the allyl-ADHs are composed of 343 amino acids having the molecular weights 38083 and 37994, respectively, and they showed approximately 70% homology to the NADP+-dependent oxidoreductases belonging to a plant zeta-crystallin family.
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PMID:A 38 kDa allylic alcohol dehydrogenase from the cultured cells of Nicotiana tabacum. 1111 76

Gastric tissues from amphibian Rana perezi express the only vertebrate alcohol dehydrogenase (ADH8) that is specific for NADP(H) instead of NAD(H). In the crystallographic ADH8-NADP+ complex, a binding pocket for the extra phosphate group of coenzyme is formed by ADH8-specific residues Gly223-Thr224-His225, and the highly conserved Leu200 and Lys228. To investigate the minimal structural determinants for coenzyme specificity, several ADH8 mutants involving residues 223 to 225 were engineered and kinetically characterized. Computer-assisted modeling of the docked coenzymes was also performed with the mutant enzymes and compared with the wild-type crystallographic binary complex. The G223D mutant, having a negative charge in the phosphate-binding site, still preferred NADP(H) over NAD(H), as did the T224I and H225N mutants. Catalytic efficiency with NADP(H) dropped dramatically in the double mutants, G223D/T224I and T224I/H225N, and in the triple mutant, G223D/T224I/H225N (kcat/KmNADPH = 760 mm-1 min-1), as compared with the wild-type enzyme (kcat/KmNADPH = 133330 mm-1 min-1). This was associated with a lower binding affinity for NADP+ and a change in the rate-limiting step. Conversely, in the triple mutant, catalytic efficiency with NAD(H) increased, reaching values (kcat/KmNADH = 155000 mm-1 min-1) similar to those of the wild-type enzyme with NADP(H). The complete reversal of ADH8 coenzyme specificity was therefore attained by the substitution of only three consecutive residues in the phosphate-binding site, an unprecedented achievement within the ADH family.
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PMID:Complete reversal of coenzyme specificity by concerted mutation of three consecutive residues in alcohol dehydrogenase. 1290 31

The gene encoding an alcohol dehydrogenase (Bt-ADH) was cloned from a newly isolated thermophilic alkane-degrading Bacillus thermoleovorans, strain B23. The gene conferred 1-tetradecanol dehydrogenase activity on Escherichia coli cells. Bt-ADH is composed of 249 amino acid residues and the calculated molecular mass is 27,196 Da. A tyrosine residue in the active site and a glycine-rich sequence (GGXXGI/LG) constituting probable nicotinamide adenine dinucleotide (NAD+) or nicotinamide adenine dinucleotide phosphate (NADP+) binding site were completely conserved in the Bt-ADH sequence at positions 155 and 11, respectively. A phylogenetic analysis of Bt-ADH suggested that the enzyme belongs to the zinc-independent ADH Group II. Its highest similarity (48% identical) was to a hypothetical oxidoreductase from a hyperthermophile, Thermotoga maritima.
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PMID:Gene Cloning of an alcohol dehydrogenase from thermophilic alkane-degrading Bacillus thermoleovorans B23. 1623 57

Bioelectronic interfaces that facilitate electron transfer between the electrode and a dehydrogenase enzyme have potential applications in biosensors, biocatalytic reactors, and biological fuel cells. The secondary alcohol dehydrogenase (2 degrees ADH) from Thermoanaerobacter ethanolicus is especially well suited for the development of such bioelectronic interfaces because of its thermostability and facile production and purification. However, the natural cofactor for the enzyme, beta-nicotinamide adenine dinucleotide phosphate (NADP+), is more expensive and less stable than beta-nicotinamide adenine dinucleotide (NAD+). PCR-based, site-directed mutagenesis was performed on 2 degrees ADH in an attempt to adjust the cofactor specificity toward NAD+ by mutating Tyr218 to Phe (Y218F 2 degrees ADH). This mutation increased the Km(app) for NADP+ 200-fold while decreasing the Km(app) for NAD+ 2.5-fold. The mutant enzyme was incorporated into a bioelectronic interface that established electrical communication between the enzyme, the NAD+, the electron mediator toluidine blue O (TBO), and a gold electrode. Cyclic voltammetry, impedance spectroscopy, gas chromatography, mass spectrometry, constant potential amperometry, and chronoamperometry were used to characterize the mutant and wild-type enzyme incorporated in the bioelectronic interface. The Y218F 2 degrees ADH exhibited a fourfold increase in the turnover ratio compared to the wild type in the presence of NAD+. The electrochemical and kinetic measurements support the prediction that the Rossmann fold of the enzyme binds to the phosphate moiety of the cofactor. During the 45 min of continuous operation, NAD+ was electrically recycled 6.7 x 10(4) times, suggesting that the Y218F 2 degrees ADH-modified bioelectronic interface is stable.
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PMID:Mutation of Tyr-218 to Phe in Thermoanaerobacter ethanolicus secondary alcohol dehydrogenase: effects on bioelectronic interface performance. 1802 92


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