UMLS:C1332347 - FACTA Search

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

The effects of the various naturally occurring amino acids on ethanol oxidation in hepatocytes from starved rats was systematically studied. In order to minimize the non ADH pathways, the ethanol concentration used was 4 mmol/litre, the amino acids being added at the same concentration. In hepatocytes from fasted rats, alanine, arginine, asparagine, aspartate, citrulline, cysteine, glutamate, glutamine, glycine, histidine, hydroxyproline, ornithine and serine increase significantly ethanol consumption. The stimulatory effect of glutamine being much less pronounced than the asparagine one and proline being devoid of action, the influence of ammonium chloride addition on ethanol consumption in the presence of these amino acids was studied. Ammonium chloride determines an enhancement of ethanol oxidation in these conditions, the results showing no apparent correlation between intracellular glutamate concentration and ethanol oxidation rate, contrarily to previous data. In hepatocytes from fed rats, only alanine, asparagine, cysteine, glycine, hydroxyproline, ornithine and serine increase ethanol oxidation, although to a lesser extent than in cells from starved rats.
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PMID:[Effect of natural amino acids on ethanol oxidation in isolated rat hepatocytes]. 9 50

Preincubation of rat liver cells (the C-9 cell line) with okadaic acid (0.6 microM), a known inhibitor of protein-serine/threonine phosphate phosphatases 2A and 1, for 30 min amplified 6-keto-PGF1 alpha production stimulated by thapsigargin, thrombin, platelet activating factor (PAF), 12-O-tetradecanoylphorbol-13-acetate (TPA), the Ca2+ ionophore A-23187 and lysine-vasopressin (Lys.ADH) but not that stimulated by exogenous arachidonic acid. The amplification occurred within minutes after addition of the stimulators. The effect of preincubation was time dependent. Preincubation of the cells with okadaic acid (0.6 microM) for longer than 30 min decreased this amplification. The results suggest that inhibition of protein-serine/threonine phosphate phosphatase(s) can both positively and negatively regulate deesterification of phospholipids although the negative regulation may reflect a toxic response. Microcystin LR and nodularin, inhibitors of protein-serine/threonine phosphate phosphatases 2A and 1 in vitro, did not amplify 6-keto-PGF1 alpha production by PAF when incubated with intact cells.
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PMID:Effects of okadaic acid on agonist-stimulated PGI2 production by rat liver cells (the C-9 cell line). 164 47

Using Bacillus subtilis as a host and pTB524 as a vector plasmid, we cloned the thermostable alcohol dehydrogenase (ADH-T) gene (adhT) from Bacillus stearothermophilus NCA1503 and determined its nucleotide sequence. The deduced amino acid sequence (337 amino acids) was compared with the sequences of ADHs from four different origins. The amino acid residues responsible for the catalytic activity of horse liver ADH had been clarified on the basis of three-dimensional structure. Since those catalytic amino acid residues were fairly conserved in ADH-T and other ADHs, ADH-T was inferred to have basically the same proton release system as horse liver ADH. The putative proton release system of ADH-T was elucidated by introducing point mutations at the catalytic amino acid residues, Cys-38 (cysteine at position 38), Thr-40, and His-43, with site-directed mutagenesis. The mutant enzyme Thr-40-Ser (Thr-40 was replaced by serine) showed a little lower level of activity than wild-type ADH-T did. The result indicates that the OH group of serine instead of threonine can also be used for the catalytic activity. To change the pKa value of the putative system, His-43 was replaced by the more basic amino acid arginine. As a result, the optimum pH of the mutant enzyme His-43-Arg was shifted from 7.8 (wild-type enzyme) to 9.0. His-43-Arg exhibited a higher level of activity than wild-type enzyme at the optimum pH.
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PMID:Cloning and sequencing of the gene coding for alcohol dehydrogenase of Bacillus stearothermophilus and rational shift of the optimum pH. 173 26

The three-dimensional structure of human beta 1 beta 1 alcohol dehydrogenase (ADH; EC 1.1.1.1) complexed with NAD+ has been determined by x-ray crystallography to 3.0-A resolution. The amino acids directly involved in coenzyme binding are conserved between horse EE and human beta 1 beta 1 alcohol dehydrogenase in all but one case [serine (horse) vs. threonine (human) at position 48]. As a result, the coenzyme molecule is bound in a similar manner in the two enzymes. However, the strength of the interactions in the vicinity of the pyrophosphate bridge of NAD+ appears to be enhanced in the human enzyme. Side-chain movements of Arg-47 and Asp-50 and a shift in the position of the helix comprising residues 202-212 may explain both the decreased Vmax and the decreased rate of NADH dissociation observed in the human enzyme vs. the horse enzyme. It appears that these catalytic differences are not due to substitutions of any amino acids directly involved in coenzyme binding but are the result of structural rearrangements resulting from multiple sequence differences between the two enzymes.
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PMID:Structure of human beta 1 beta 1 alcohol dehydrogenase: catalytic effects of non-active-site substitutions. 189 63

The nucleotide sequence of the alcohol dehydrogenase gene Adh71k has been determined. The Adh71k allele encodes the thermostable and multifunctional ADH-71k allozyme of Drosophila melanogaster. Comparison with the sequences of AdhS, AdhF, and AdhFChD reveals differences in the coding and noncoding regions of the gene. Conceptual translation of the Adh71k sequence indicates that ADH-71k shares with ADH-F and ADH-FCHD an amino acid replacement at residue 192 and with ADH-FCHD an additional replacement of serine for proline at residue 214. Three unique differences were found in the nontranslated regions. It is proposed that a nucleotide deletion in the adult intron is related to the difference in expression level of the Adh71k allele, relative to the other alleles. An insertion of five nucleotides, additional to a single base deletion at that site, was detected in one of the larval enhancer regions in the 5' flanking region of the Adh71k allele, creating a palindromic structure in that area.
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PMID:Analysis of the gene encoding the multifunctional alcohol dehydrogenase allozyme ADH-71k of Drosophila melanogaster. 212 44

By protein engineering we have investigated changes to two amino acid residues (Trp93 and Ser48) in the substrate pocket of yeast alcohol dehydrogenase 1. Upon changing Thr48 to serine we produced an enzyme which has markedly greater activity towards aliphatic alcohols with chain length up to 8, together with a general increase in catalytic activity (V/K). Changes at position 93 were less pronounced, with the Phe enzyme being more active than the parent towards the range of alcohols but with the alanine enzyme showing very little difference from the wild-type. Enzymes with the double changes at 48 and 93 showed increased activity towards alcohols with 3-8 carbons but the increases were not additive over the single changes. The enzymes with changes at the two positions would metabolize both stereoisomers of 2-octanol whereas the parent ADH would attack only one of them. None of the engineered enzymes would attack cyclohexanol or aromatic alcohols. The results are in general agreement with the prediction that reducing the size of amino acids in the substrate pocket would enhance the ability to oxidize alcohols larger than ethanol.
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PMID:Protein engineering of alcohol dehydrogenases: effects of amino acid changes at positions 93 and 48 of yeast ADH1. 219 59

The nucleotide sequence of the Fast-Chateau Douglas isolate of the thermostable alcohol dehydrogenase allele is compared with the sequences of the Slow and Fast alleles of Drosophila melanogaster. Conceptual translation of the FChD sequence indicates that the thermostable polypeptide has the diagnostic FAST amino acid replacement at residue 192 and an additional replacement of serine for proline at residue 214. This suggests a Fast origin for the thermostable Adh allele. However, some of the biochemical properties of the FCHD protein resemble those of the SLOW rather than the FAST polypeptides. The serine for proline replacement confers upon the thermostable polypeptide substrate specificities and some kinetic parameters similar to the SLOW protein. The same replacement substitution within the third coding exon also appears to alter the ADH protein concentration to a level similar to the SLOW polypeptide and the probable effect is at the level of mRNA concentration. The low level of nucleotide sequence variation, other than that leading to the amino acid substitution, suggests a recent origin for the thermostable allele. The time since divergence of the FChD sequence from Fast is estimated to be approximately 260,000-470,000 years.
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PMID:Recent origin for a thermostable alcohol dehydrogenase allele of Drosophila melanogaster. 313 52

Exon-intron structures of eukaryotic genes were examined closely in their relation to primary and tertiary structures of the proteins they encode. Specific attention was given to the introns of genes encoding proteins having no repeats in their amino acid sequences. such introns have been shown to be located at sites corresponding to inter-domain or inter-module junctions of proteins identified in their three dimensional structures. "Modules," compact structural units in globular domains of proteins, are identified by drawing a distance map. Intron positions are found to correspond to intermodule junctions in various proteins whose X-ray crystallographic data are available: the globin family, CEWL, ovomucoid, cytochrome c, ADH, and trypsin-like serine proteinases. The good correspondence between intron positions and intermodule junctions excludes a mechanism of random insertion of introns, because the probability of intron insertion at each intermodule junction is extraordinarily small. Intron positions have been very stable and well conserved during evolution. However, at some inter-module junctions no introns are found. Modules in small proteins having no core modules buried in their interior have a character suitable for recruitment through their assembly into a stable domain; one side of them is rich in hydrophobic residues and the other in hydrophilic residues. Functionally important residues are scattered on different modules in the proteins examined. Based on these observations, the role of modules in the precellular period was conjectured: some of them might be functionally active by themselves but most modules might be only segments who could function as an active protein only in an assembly. The origin of introns might be traced back prior to the divergence of prokaryotes and eukaryotes.
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PMID:Protein structures and split genes. 391 83

To assess the importance of non-ADH ethanol metabolism, ADH-negative (ADH-) and ADH-positive (ADH+) deermice were fed for 2-4 weeks liquid diets containing ethanol or isocaloric carbohydrate. They consumed progressively increasing amounts of ethanol. Blood ethanol clearance (BEC) increased significantly in both strains. It remained almost unchanged at low ethanol concentrations (5-10 mM), but at high levels (40-70 mM) BEC was strikingly increased with significant differences between ethanol-fed and control animals. Kinetics were consistent with the activity of a non-ADH high Km system such as the microsomal ethanol-oxidizing system (MEOS). Naive ADH- had a more active MEOS and more abundant SER than naive ADH+. After ethanol feeding, MEOS was increased 3-4 times in both strains. There was striking proliferation of SER and cytochrome P-450 was enhanced significantly. Expressed per P-450, MEOS activity was higher in ADH- than ADH+. Thus despite absence of ADH, ADH- deermice can consume large amounts of ethanol: this is associated with increased BEC, SER proliferation, enhanced MEOS activity and quantitative and qualitative changes of cytochrome P-450.
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PMID:Alcohol dehydrogenase (ADH) independent ethanol metabolism in deermice lacking ADH. 635 58

The existence of geographically widespread clines in genetic polymorphisms is persuasive evidence that the distribution of such genetic variance is determined by natural selection. However, when comparing clines it is important to be certain that identical structural genes are involved. We report a structural difference (proline-214 to serine) between the product of AdhF and an electrophoretically cryptic heat-stable variant isolated from an Australian natural population, ADH-FCh.D. ("fast" Chateau Douglas). The biochemical properties of this new variant must be taken into consideration when attempting to formulate a causal explanation of the maintenance of the three identified Adh alleles. Our data also show that the products of an AdhF and an AdhS allele in Drosophila melanogaster in an Australian population are identical over 70% of their amino acid sequences with their North American counterparts.
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PMID:Structural analysis of an electrophoretically cryptic alcohol dehydrogenase variant from an Australian population of Drosophila melanogaster. 678 28

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