PMID-sentid Pub_year Sent_text comp_official_name comp_offset protein_name organism prot_offset 15040954-0 2004 A distinct type of alcohol dehydrogenase, adh4+, complements ethanol fermentation in an adh1-deficient strain of Schizosaccharomyces pombe. Ethanol 61-68 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 42-46 17938904-3 2008 Zinc depletion severely affects ethanol production and therefore nicotinamide adenine dinucleotide (NAD) regeneration, although we observed partial compensation by the upregulation of the poorly efficient Fe-dependent Adh4p in our conditions. Iron 205-207 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 218-223 16503288-9 2006 A high ADH activity appeared to be the major reason for the high ethanol productivity of 2DGR19. Ethanol 65-72 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 7-10 18412983-7 2008 Of particular interest is our finding that ADH4 and ADH6 show a behavior typical of glucose-induced genes, while ADH3 and ADH5 are repressed after glucose addition. Glucose 84-91 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 43-47 15040954-4 2004 Both DNA microarray and RT-PCR analysis demonstrated that this ethanol production is caused by the enhanced expression of a Saccharomyces cerevisiae ADH4-like gene product (SPAC5H10.06C named adh4(+)). Ethanol 63-70 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 149-153 15040954-4 2004 Both DNA microarray and RT-PCR analysis demonstrated that this ethanol production is caused by the enhanced expression of a Saccharomyces cerevisiae ADH4-like gene product (SPAC5H10.06C named adh4(+)). Ethanol 63-70 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 192-196 15040954-6 2004 This is the first observation that a S. cerevisiae ADH4-like alcohol dehydrogenase functions in yeast ethanol fermentation. Ethanol 102-109 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 51-55 1459445-1 1992 Five spontaneous amplifications of the ADH4 gene were identified among 1,894 antimycin A-resistant mutants isolated from a diploid strain after growth at 15 degrees. Antimycin A 77-88 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 39-43 2193925-3 1990 Analysis of the glucose metabolism of adh0 cells shows that the lack of all known ADH isozymes results in the formation of glycerol as a major fermentation product, accompanied by a significant production of acetaldehyde and acetate. Glucose 16-23 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 82-85 2193925-3 1990 Analysis of the glucose metabolism of adh0 cells shows that the lack of all known ADH isozymes results in the formation of glycerol as a major fermentation product, accompanied by a significant production of acetaldehyde and acetate. Glycerol 123-131 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 82-85 2193925-3 1990 Analysis of the glucose metabolism of adh0 cells shows that the lack of all known ADH isozymes results in the formation of glycerol as a major fermentation product, accompanied by a significant production of acetaldehyde and acetate. Acetaldehyde 208-220 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 82-85 2193925-3 1990 Analysis of the glucose metabolism of adh0 cells shows that the lack of all known ADH isozymes results in the formation of glycerol as a major fermentation product, accompanied by a significant production of acetaldehyde and acetate. Acetates 225-232 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 82-85 2156159-0 1990 Effect of irradiation and mutagenic chemicals on the generation of ADH2- and ADH4-constitutive mutants in yeast: the inducibility of Ty transposition by UV and ethyl methanesulfonate. Ethyl Methanesulfonate 160-182 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 77-81 2823079-4 1987 The hypothetical ADH does, however, show strong homology to the sequence of an iron-activated ADH from the bacterium Zymomonas mobilis. Iron 79-83 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 17-20 2823079-4 1987 The hypothetical ADH does, however, show strong homology to the sequence of an iron-activated ADH from the bacterium Zymomonas mobilis. Iron 79-83 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 94-97 3023838-3 1986 Here we show that after growth at 15 or 20 degrees C on glucose, 30% of the antimycin A resistance mutations are Ty insertions at ADH2 and another 65% of the mutations are Ty insertions at ADH4, a new locus identified and cloned as described in this paper. Glucose 56-63 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 189-193 32233408-0 2020 Production of Methionol from 3-Methylthiopropionaldehyde by Catalysis of the Yeast Alcohol Dehydrogenase Adh4p. methionol 14-23 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 83-110 32233408-0 2020 Production of Methionol from 3-Methylthiopropionaldehyde by Catalysis of the Yeast Alcohol Dehydrogenase Adh4p. methional 29-56 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 83-110 32233408-2 2020 In this work, a novel method for methionol production was established using 3-methylthiopropionaldehyde (MMP) and alcohol dehydrogenase (ADH). methionol 33-42 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 137-140 1938903-1 1991 As reported previously, Saccharomyces cerevisiae cells deficient in all four known genes coding for alcohol dehydrogenases (ADH1 through ADH4) produce considerable amounts of ethanol during aerobic growth on glucose. Ethanol 175-182 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 137-141 1938903-1 1991 As reported previously, Saccharomyces cerevisiae cells deficient in all four known genes coding for alcohol dehydrogenases (ADH1 through ADH4) produce considerable amounts of ethanol during aerobic growth on glucose. Glucose 208-215 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 137-141 2555668-6 1989 Transposition of Ty elements to two target loci encoding distinct alcohol dehydrogenase enzymes, ADH2 and ADH4, was examined in cells exposed to increasing doses of UV light or 4NQO. Thr-Tyr 17-19 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 106-110 3019553-0 1986 Resistance to antimycin A in yeast by amplification of ADH4 on a linear, 42 kb palindromic plasmid. Antimycin A 14-25 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 55-59 3019553-1 1986 A yeast strain lacking a functional copy of ADH1 has been isolated that is resistant to antimycin A because of the presence of multiple copies of a nuclear gene, ADH4. Antimycin A 88-99 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 162-166 3023838-3 1986 Here we show that after growth at 15 or 20 degrees C on glucose, 30% of the antimycin A resistance mutations are Ty insertions at ADH2 and another 65% of the mutations are Ty insertions at ADH4, a new locus identified and cloned as described in this paper. Antimycin A 76-87 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 189-193 30949594-2 2019 In this study, we focused on two branches of beta-amyrin synthetics pathway that consume beta-amyrin precursors (2,3-oxidosqualene and cytosolic acetyl-CoA) and regulated related genes (ADH1, ADH4, ADH5, ADH6, CIT2, MLS2 and ERG7). beta-amyrin 45-56 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 192-196 30949594-2 2019 In this study, we focused on two branches of beta-amyrin synthetics pathway that consume beta-amyrin precursors (2,3-oxidosqualene and cytosolic acetyl-CoA) and regulated related genes (ADH1, ADH4, ADH5, ADH6, CIT2, MLS2 and ERG7). beta-amyrin 89-100 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 192-196 24853351-5 2014 By inactivating ADH1 and ADH4 for ethanol formation and GPD1 and GPD2 for glycerol production, the glycolytic flux was redirected towards acetyl-CoA, resulting in 4-fold improvement in n-butanol production. Ethanol 34-41 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 25-29 24853351-5 2014 By inactivating ADH1 and ADH4 for ethanol formation and GPD1 and GPD2 for glycerol production, the glycolytic flux was redirected towards acetyl-CoA, resulting in 4-fold improvement in n-butanol production. Glycerol 74-82 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 25-29 24853351-5 2014 By inactivating ADH1 and ADH4 for ethanol formation and GPD1 and GPD2 for glycerol production, the glycolytic flux was redirected towards acetyl-CoA, resulting in 4-fold improvement in n-butanol production. Acetyl Coenzyme A 138-148 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 25-29 24853351-5 2014 By inactivating ADH1 and ADH4 for ethanol formation and GPD1 and GPD2 for glycerol production, the glycolytic flux was redirected towards acetyl-CoA, resulting in 4-fold improvement in n-butanol production. 1-Butanol 185-194 alcohol dehydrogenase ADH4 Saccharomyces cerevisiae S288C 25-29