Isolation of High-Malate-Producing Sake Yeasts from Low-Maltose-Assimilating Mutants
スポンサーリンク
概要
- 論文の詳細を見る
High-malate-producing sake yeasts were isolated from low-maltose-assimilating mutants. A sake yeast Kyokai no.701(K-701) was mutagenized with ethyl methanesulfonate. After nystatin treatment, low-maltose-assimilating mutants were selected using a replica plating method. The forty-two mutants obtained were fermented in koji extract medium and almost all of them produced more malate than the parental strain. In a small-scale sake brewing test, several of these mutants produced 2.3 to 6.7 times higher concentrations of malate and 1.5 to 2.1 times higher total acidity than the parental strain. However, these mutants exhibited neither resistance to cycloheximide nor sensitivity to dimethyl succinate, which are used as the phenotypes for isolation of high-malate-producing sake yeasts. The expression levels of the MDH and FUMI genes in one mutant (M20), which produced the highest amount of malate among the mutants obtained, were analyzed by Northern hybridization. The transcriptional level of the FUMI gene in strain M20 during sake brewing had a similar profile to that in strain K-701. However, the transcriptional level of the MDH2 gene in strain M20 for days 4 and 8 of malate formation during sake brewing was higher than that in strain K-701.
- 2001-11-25
著者
-
ASANO TADAO
Alcoholic Beverages and Foods Research Laboratories, Takara Shuzo Co. Ltd.
-
KUROSE NAOTAKA
Alcoholic Beverages and Foods Research Laboratories, Takara Shuzo Co. Ltd.
-
Kurose N
Alcoholic Beverages And Foods Research Laboratories Takara Shuzo Co. Ltd.
-
TARUMI SHOJI
Alcoholic Beverages and Food Research Laboratories, Takara Shuzo Co.Ltd.
-
Tarumi Shoji
Alcoholic Beverages And Food Research Laboratories Takara Shuzo Co.ltd.
-
Asano Tadao
Alcoholic Beverages And Foods Research Laboratories Takara Shuzo Co. Ltd.
関連論文
- Characterization of α-Ketog1utarate-Resistant Sake Yeast Mutant with High Organic Acid Productivity
- Use of Koji Prepared with a High Citric Acid Producing Mutant of Aspergillus usamii as a Raw Material for Sake Brewing : This study was presented at the Annual Meeting of the Agricultural Chemical Society of Japan, April 2,1987.
- Isolation of High-Malate-Producing Sake Yeasts from Low-Maltose-Assimilating Mutants
- Characterization of New Strains of Clostridium thermocellum and the celA Gene from a Strain(Microbiology & Fermentation Industry)
- Isolation of Plasmids from Thermophilic Clostridia and Construction of Shuttle Vectors in Escherichia coli and Cellulolytic Clostridia
- Improvement of Ethanol Production of Thermophilic Clotridium sp. by Mutation
- Evaluation of Ethanol Productivity from Cellulose by Clostridium thermocellum
- Effect of NAD^+-Dependent Isocitrate Dehydrogenase Gene (IDH1, IDH2) Disruption of Sake Yeast on Organic Acid Composition in Sake Mash
- Improvement of Isoamyl Acetate Productivity in Sake Yeast by Isolating Mutants Resistant to Econazole
- Effect of the FAA1 Gene Disruption of Sake Yeast on the Accumulation of Ethyl Caproate in Sake Mash