1.1.1.91: aryl-alcohol dehydrogenase (NADP+)
This is an abbreviated version!
For detailed information about aryl-alcohol dehydrogenase (NADP+), go to the full flat file.
Reaction
Synonyms
AAD, AAD1, AAD14, Aad14p, Aad1p, AAD4, Aad4p, ADH, aryl alcohol dehydrogenase (nicotinamide adenine dinucleotide phosphate) coniferyl alcohol dehydrogenase, aryl-alcohol dehydrogenase, coniferyl alcohol dehydrogenase, NADPH-linked benzaldehyde reductase, PcAad1p, ScAad14p protein, ScAad4p protein, SDR A5, SDR B3, short-chain dehydrogenase/reductase
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General Information
General Information on EC 1.1.1.91 - aryl-alcohol dehydrogenase (NADP+)
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evolution
malfunction
physiological function
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Phanerochaete chrysosporium Aad1p can reduce aryl-aldehyde derivatives to their corresponding less-toxic alcohol forms
evolution
function and phylogeny of the yeast Aad gene family reveals that only two genes of the family (AAD4 and AAD14) encode enzymatic activities on aliphatic and aryl-aldehydes, whereas the other five putative members are being pseudogenized
evolution
natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Phylogenetic analysis
evolution
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function and phylogeny of the yeast Aad gene family reveals that only two genes of the family (AAD4 and AAD14) encode enzymatic activities on aliphatic and aryl-aldehydes, whereas the other five putative members are being pseudogenized
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evolution
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Phylogenetic analysis
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evolution
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function and phylogeny of the yeast Aad gene family reveals that only two genes of the family (AAD4 and AAD14) encode enzymatic activities on aliphatic and aryl-aldehydes, whereas the other five putative members are being pseudogenized
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evolution
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Phylogenetic analysis
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. No mutations in Asd14 detected. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
malfunction
natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
malfunction
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. No mutations in Asd14 detected. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
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malfunction
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
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malfunction
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. No mutations in Asd14 detected. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
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malfunction
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natural single-base-pair substitutions, truncations, and deletions in the AAD gene family of yeast S288C, overview. Yeast AAD overexpression does not increase yeast resistance to aryl-aldehyde compounds
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