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: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alcohol dehydrogenase isoenzyme III (ADH III) in Saccharomyces cerevisiae, the product of the ADH3 gene, is located in the mitochondrial matrix. The ADH III protein was synthesized as a larger precursor in vitro when the gene was transcribed with the SP6 promoter and translated with a reticulocyte lysate. A precursor of the same size was detected when radioactively pulse-labeled proteins were immunoprecipitated with anti-ADH antibody. This precursor was rapidly processed to the mature form in vivo with a half-time of less than 3 min. The processing was blocked if the mitochondria were uncoupled with carbonyl cyanide m-chlorophenylhydrazone. Mutant enzymes in which only the amino-terminal 14 or 16 amino acids of the presequence were retained were correctly targeted and imported into the matrix. A mutant enzyme that was missing the amino-terminal 17 amino acids of the presequence produced an active enzyme, but the majority of the enzyme activity remained in the cytoplasmic compartment on cellular fractionation. Random amino acid changes were produced in the wild-type presequence by bisulfite mutagenesis of the ADH3 gene. The resulting ADH III protein was targeted to the mitochondria and imported into the matrix in all of the mutants tested, as judged by enzyme activity. Mutants containing amino acid changes in the carboxyl-proximal half of the ADH3 presequence were imported and processed to the mature form at a slower rate than the wild type, as judged by pulse-chase studies in vivo. The unprocessed precursor appeared to be unstable in vivo. It was concluded that only a small portion of the presequence contains the necessary information for correct targeting and import. Furthermore, the information for correct proteolytic processing of the presequence appears to be distinct from the targeting information and may involve secondary structure information in the presequence.
Mol Cell Biol 1987 Jan
PMID:Primary structure requirements for correct sorting of the yeast mitochondrial protein ADH III to the yeast mitochondrial matrix space. 355 Apr 19

The in vitro effect of chlorpromazine on hepatic alcohol dehydrogenase (L-ADH) was studied as a function of sex and species. The presence of chlorpromazine, 50 muMol, in reaction mixture noncompetitively inhibited rat L-ADH in a dose dependent fashion in the concentration range between 5 X 10(-5) Mol and 10(-4) Mol. This drug concentration also inhibited L-ADH of albino mice of both sexes, but chlorpromazine-produced a decrease in Km which was greater in the female than in the male mouse. Likewise, chlorpromazine, 50 muMol, noncompetitively inhibited mouse L-ADH of C57BL/6J, a mouse strain with ethanol preference, but without a concomitant change in the apparent Km. The KI50 determination indicates 3.5 fold lower concentration requirement of the drug in the C57BL mouse strain compared to that of the albino rat liver preparation. The results suggest that the inhibitory action of the drug on L-ADH and the genetic factor involved may influence the legal limit of serum ethanol concentration during alcohol intoxication in subjects under psychotropic medications. A medical forensic implication is suggested.
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PMID:Chlorpromazine and ethanol intoxication: an underlying mechanism. 388 87

Mutations at the Adh1 locus in maize were selected from plants infected with barley stripe mosaic virus (BSMV). Pollen from the infected inbred line 1s2p, which is homozygous for Adh1-S (abbreviated S), Adh2-P, c and r was treated with allyl alcohol and applied to silks of a tester stock homozygous for Adh1-F, Adh2-N, C and R. From these pollinations 356 kernels arose on the F1 ears. Of these eight showed no activity of the S allele in scutellar samples while two exhibited low levels. Five of the putative mutant kernels germinated and two of these contained the contamination markers Adh2-P, c and r. The newly arisen mutations were designated S5446 and S5453. S5453 exhibited an abnormally low level of ADH activity in the F1 scutellum. In the F2 generation the mutant reverted at a high frequency with only about 5% of the S5453 alleles expressing low levels. DNA blotting and hybridization analyses showed no alterations in the restriction patterns of S5453 when compared to the progenitor S allele. S5446 which exhibited no ADH activity in the F1 scutellum is unstable in the pollen; reversion frequencies approaching 10(-2) were observed in samples from some plants. Restriction digestion patterns of DNA from this mutant revealed the presence of a 3.3 kb insertion at Adh. The insert does not appear to contain sequences homologous to the BSMV genome but rigorous analyses remain to be carried out. It is hypothesized that BSMV infection may mobilize endogenous but dormant transposable elements in maize.
Mol Gen Genet 1984
PMID:Mutations of the Adh1 gene in maize following infection with barley stripe mosaic virus. 609 61

Stressed plant cells often show increased oxygen uptake which can manifest itself in the transient production of active oxygen species, the oxidative burst. There is a lack of information on the redox status of cells during the early stages of biotic stress. In this paper we measure oxygen uptake and the levels of redox intermediates NAD/NADH and ATP and show the transient induction of the marker enzyme for redox stress, alcohol dehydrogenase. Rapid changes in the redox potential of elicitor-treated suspension cultures of French bean cells indicate that, paradoxically, during the period of maximum oxygen uptake the levels of ATP and the NADH/NAD ratio fall in a way that indicates the occurrence of stress in oxidative metabolism. This period coincides with the maximum production of active oxygen species particularly H2O2. The cells recover and start producing ATP immediately of H2O2 production. This indicates that the increased O2 uptake is primarily incorporated into active O2 species. A second consequence of these changes is probably a transient compromising of the respiratory status of the cells as indicated in expression of alcohol dehydrogenase. Elicitor-induced bean ADH was purified to homogeneity and the M(r) 40,000 polypeptide was subjected to amino acid sequencing. 15% of the whole protein was sequenced from three peptides and was found to have nearly 100% sequence similarity to the amino acid sequence for pea ADH1 (PSADH1). The cDNA coding for the pea enzyme was used to demonstrate the transient induction of ADH mRNA in elicitor-treated bean cells. Enzyme activity levels also increased transiently subsequently. Increased oxygen uptake has previously been thought to be associated with provision of energy for the changes in biosynthesis that occur rapidly after perception of the stress signal. However the present work shows that this rapid increase in oxygen uptake as a consequence of elicitor action is not wholly associated with respiration.
Plant Mol Biol 1995 Jan
PMID:Rapid changes in oxidative metabolism as a consequence of elicitor treatment of suspension-cultured cells of French bean (Phaseolus vulgaris L.). 786 96

Entamoeba histolytica ferments glucose to ethanol under the anaerobic conditions of the human colon. There is special interest in this metabolic pathway because it provides an opportunity for parasite-specific chemotherapy. Peptide sequences from a 97-kDa E. histolytica protein, which was originally isolated because of extracellular matrix binding properties, were used to clone and sequence a gene that was found to encode an E. histolytica alcohol dehydrogenase and acetaldehyde dehydrogenase (EhADH2). The EhADH2 cDNA clone had an open reading frame encoding 870 amino acids with a predicted molecular weight of 95,758. The EhADH2 cDNA clone was identical in 48% of its amino acids to the multifunctional enzyme (alcohol dehydrogenase, acetyl-CoA reductase, and pyruvate-formate-lyase-deactivase) encoded by the Escherichia coli adhE gene. The isolation of the EhADH2 protein helps define a new family of ADH enzymes that may be specific to anaerobic and facultatively anaerobic organisms.
Mol Biochem Parasitol 1994 Apr
PMID:Entamoeba histolytica has an alcohol dehydrogenase homologous to the multifunctional adhE gene product of Escherichia coli. 793 3

The zinc-binding long-chain alcohol dehydrogenases from plants and animals exhibit a considerable level of amino acid sequence conservation. While the functional importance of many of the conserved residues is known, the role of others has not yet been determined. We have identified a naturally occurring Adh-1 allele in the legume Phaseolus acutifolius with several unusual characteristics. Individuals homozygous for this allele, Adh-1 CN, possess a single isozyme starch gel electrophoretic pattern suggestive of a null allele, and exhibit ADH enzyme activity levels ca. 60% lower than the standard wild-type Adh-1F line. Interestingly, analysis of Adh-1CN homozygotes on an alternative gel system indicates that Adh-1CN does encode a polypeptide capable of forming functional homo- and heterodimers. However, the levels of ADH activity displayed by these isozymes are far lower than those observed for the corresponding wild type ADH-1F isozymes. Dialysis experiments indicate that isozymes containing the ADH-1CN polypeptide are inactivated by slightly acidic conditions, which may explain the apparent null phenotype on starch gels. Elevated temperatures cause a similar loss of enzyme activity. The deduced amino acid sequences of ADH-1CN and ADH-1F were obtained from their corresponding cDNA clones, and the only significant difference detected between the two is a single amino acid replacement substitution. Residue 144 is occupied by phenylalanine in the ADH-1F polypeptide, whereas serine occupies this position in the ADH-1CN polypeptide. The proximity of residue 144 to the catalytic zinc in the substrate-binding pocket, coupled with the fact that it is integral to a defined hydrophobic core of the ADH polypeptide, may explain the observed disruptive effect that the serine substitution has on both the activity and stability of the ADH-1CN polypeptide. It also provides an explanation for the maintenance of phenylalanine or the structurally similar tyrosine at this residue in Zn-binding long-chain ADHs.
Plant Mol Biol 1994 Oct
PMID:The reduced stability of a plant alcohol dehydrogenase is due to the substitution of serine for a highly conserved phenylalanine residue. 794 19

A T-DNA vector for plant transformation has been constructed in which the cloning site is located 9 bp from the right-border (RB) end and 27 bp from the left-border (LB) end. In this vector cloned DNA homologous to plant chromosomal sequences is located at the T-DNA termini, and will thus be exposed by even limited exonucleolysis in planta. The arabidopsis ADH (alcohol dehydrogenase) locus was mobilized from Agrobacterium, and integration into the recipient genome was studied. Despite the terminal location of ADH homology in this vector, the T-DNA integrated essentially at random in the Arabidopsis genome rather than at the endogenous ADH locus. T-DNA integration was blocked, however, when Arabidopsis telomeric sequences were added to the construct at each end of the ADH homology. Thus the predominant mode by which incoming T-DNA is integrated into the continuity of chromosomal DNA involves free DNA ends, but, in contrast to modes of recombination such as gap repair, does not involve extensive terminal DNA sequence homology.
Plant Mol Biol 1994 Nov
PMID:Termini and telomeres in T-DNA transformation. 800 5

The Adh-1 gene product, ADH-A2, the only known murine class I alcohol dehydrogenase, is able to oxidize retinol (vitamin A) into retinaldehyde, the first enzymatic step in the conversion of retinol into its biologically active metabolite retinoic acid. We have investigated the developmental expression pattern of Adh-1 transcripts by in situ hybridization. Transcripts were first detected by embryonic day 10.5 in the mesonephros mesenchyme. During the following gestational days, Adh-1 transcripts were detected in several mesenchymal areas, such as nasal, laterocervical, and genital regions. Adh-1 transcripts were also detected in a small ectodermal domain at the anterior margins of both forelimbs and hindlimbs. During late fetal development. Adh-1 transcripts were found essentially in the epidermis and in a number of tissues which continue to express the gene after birth, such as liver, kidney, gut epithelium, adrenal cortex, testis interstitium, and ovarian stroma. In contrast, a strong expression of Adh-1 was found in the mesenchyme of developing lungs, but not in the adult organ. This highly regulated expression of Adh-1 is discussed with respect to the local synthesis of retinoic acid during development. Although the promoter of the human counterpart of Adh-1 contains a retinoic acid response element (Duester et al. [1991] Mol. Cell. Biol. 11:1638-1646), we report that this element is not conserved in the murine gene. Consistently, Adh-1 promoter-containing reporter constructs were not retinoic acid-inducible in cotransfections assays with RARs and/or RXRs, suggesting that retinoic acid regulation of Adh-1 differs from that of the human gene.
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PMID:Stage and tissue-specific expression of the alcohol dehydrogenase 1 (Adh-1) gene during mouse development. 801 87

The relative contribution of the aldehyde dehydrogenase (EC 1.2.1.3, ALDH) and glutathione (GSH) conjugate system to the degradation of (E)-4-hydroxy-2-nonenal (4HN), a toxic breakdown product arising from lipid peroxidation, was investigated in rat liver. Significant increases in the contents of 4HN and hexanal (HA) and a decrease of ALDH but not alcohol dehydrogenase (EC 1.1.1.2, ADH) activity were recognized in rat liver following administration of carbon tetrachloride (3 ml/kg, p.o.). Hepatic ALDH activity was correlated with HA production (r = -0.82, P < 0.01) but not with 4HN. When lipid peroxidation was induced by t-butyl hydroperoxide, the ratio of HA to 4HN production in the liver of rats pretreated with the ALDH inhibitor, cyanamide (100 mg/kg, i.p.) was higher than that in controls, whereas the ratio was lower in the liver of rats pretreated with the glutathione-depleting agent, phorone (250 mg/kg, i.p.). These results suggest that 4HN in rat liver is metabolized by the GSH-conjugate system in preference to degradation by ALDH.
Biochem Mol Biol Int 1994 Mar
PMID:Effects of aldehyde dehydrogenase and glutathione on the degradation of (E)-4-hydroxy-2-nonenal and N-hexanal in rat liver. 803 11

An 11 kb Eco RI genomic fragment containing the alcohol dehydrogenase (Adh1) gene was cloned. Cross-hybridization with three Adh2 cDNA clones suggested that the entire coding region of the Adh1 gene was contained on a 6.2 kb Xba I/Hind III subfragment. Using RFLP linkage analysis, the genomic clone was mapped on chromosome 4 between the markers TG 182 and TG 65 in a position corresponding to the Adh1 locus. To further confirm the Adh1 origin of the genomic clone, tobacco plants were transformed with the 6.2 kb Xba I/Hind III genomic subfragment. Isozyme analysis demonstrated that in transgenic tobacco plants functional tomato specific ADH-1 homodimers were synthesized as well as heterodimers composed of tobacco and tomato subunits.
Plant Mol Biol 1993 Nov
PMID:Isolation of a 6.2 kb genomic fragment carrying the Adh1 gene of tomato and its expression in transgenic tobacco. 810 15


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