Isolation of Sake Yeast Mutants Resistant to Isolamyl Monofluoroacetate to Improve Isoamyl Acetate Productivity
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概要
- 論文の詳細を見る
The growth of sake yeast was significantly inhibited by isoamyl monofluoroacetate. This inhibition was caused by free monofluoroacetic acid, a highly toxic compound, formed from isoamyl monofluoroacetate by yeast esterase. Yeast mutants with low esterase activity were expected to become resistant to isoamyl monofluoroacetate. Fifty mutants resistant to this ester were isolated from haploid strains derived from sake yeast. Two strains which had less than 15% of the original activity of esterase were obtained. These 2 strains could be used for brewing sake like their parental strain, and produce sake which contained 1.5 to 2.0 times higher amounts of isoamyl acetate and isobutyl acetate and had an excellent fruity flavor.
- 公益社団法人日本生物工学会の論文
- 1993-09-25
著者
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Tanaka Norihiro
Research Laboratory Hakutsuru Sake Brewing Co. Ltd.
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WATANABE MUTSUMI
Research Laboratory, Hakutsuru Sake Brewing Co. Ltd.
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MISHIMA HIDEO
Research Laboratory, Hakutsuru Sake Brewing Co., Ltd.,
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TAKEMURA SHIGEZO
Research Laboratory, Hakutsuru Sake Brewing Co., Ltd.,
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Mishima H
Takuma Co. Ltd. Hyogo Jpn
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Watanabe Mutsumi
Research And Development Department Hakutsuru Sake Brewing Co. Ltd.
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Watanabe Mutsumi
Research Laboratory Hakutsuru Sake Brewing Co. Ltd.
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Takemura Shigezo
Research Laboratory Hakutsuru Sake Brewing Co. Ltd.
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WATANABE MUTSUMI
Research Laboratory, Hakutsuru Sake Brewing Co., Ltd.,
関連論文
- Properties of Sake Yeast Mutants Resistant to Isoamyl Monochloroacetate
- Different Missense Mutations in PDR1 and PDR3 Genes from Clotrimazole-Resistant Sake Yeast are Responsible for Pleiotropic Drug Resistance and Improved Fermentative Activity
- Disruption of the ABC Transporter Genes PDR5, YOR1, and SNQ2, and Their Participation in Improved Fermentative Activity of a Sake Yeast Mutant Showing Pleiotropic Drug Resistance
- Characterization of a PDR1 Mutant Allele from a Clotrimazole-Resistant Saka Yeast Mutant with Improved Fermentative Activity
- Isolation of Sake Yeast Mutants Resistant to Isolamyl Monofluoroacetate to Improve Isoamyl Acetate Productivity
- Sake Yeast Mutants with Improved Fermentative Activity: Isolation, Application, and a Novel Mechanism