Masaaki Inahashi scite author profile

Masaaki Inahashi

5Publications

37Citation Statements Received

106Citation Statements Given

How they've been cited

How they cite others

104

Affiliations

National Research Institute of Brewing

Publications

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Phenotypic Diagnosis of Lineage and Differentiation During Sake Yeast Breeding

Ohnuki

Okada

Friedrich

et al. 2017

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Sake yeast was developed exclusively in Japan. Its diversification during breeding remains largely uncharacterized. To evaluate the breeding processes of the sake lineage, we thoroughly investigated the phenotypes and differentiation of 27 sake yeast strains using high-dimensional, single-cell, morphological phenotyping. Although the genetic diversity of the sake yeast lineage is relatively low, its morphological diversity has expanded substantially compared to that of the Saccharomyces cerevisiae species as a whole. Evaluation of the different types of breeding processes showed that the generation of hybrids (crossbreeding) has more profound effects on cell morphology than the isolation of mutants (mutation breeding). Analysis of phenotypic robustness revealed that some sake yeast strains are more morphologically heterogeneous, possibly due to impairment of cellular network hubs. This study provides a new perspective for studying yeast breeding genetics and micro-organism breeding strategies.

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Identification of a mutation causing a defective spindle assembly checkpoint in high ethyl caproate-producing sake yeast strain K1801

Goshima

Nakamura

Kume

et al. 2016

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In high-quality sake brewing, the cerulenin-resistant sake yeast K1801 with high ethyl caproate-producing ability has been used widely; however, K1801 has a defective spindle assembly checkpoint (SAC). To identify the mutation causing this defect, we first searched for sake yeasts with a SAC-defect like K1801 and found that K13 had such a defect. Then, we searched for a common SNP in only K1801 and K13 by examining 15 checkpoint-related genes in 23 sake yeasts, and found 1 mutation, R48P of Cdc55, the PP2A regulatory B subunit that is important for the SAC. Furthermore, we confirmed that the Cdc55-R48P mutation was responsible for the SAC-defect in K1801 by molecular genetic analyses. Morphological analysis indicated that this mutation caused a high cell morphological variation. But this mutation did not affect the excellent brewing properties of K1801. Thus, this mutation is a target for breeding of a new risk-free K1801 with normal checkpoint integrity.

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Strains with High Malic Acid-producing Ability Obtained from a Cycloheximideresistant Yeast

Yoshida¹,

Inahashi²,

Nakamura³

et al. 1993

J.Brew.Soc.Japan

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Untitled

NAMBA¹,

Ohba²,

Kitamoto³

et al. 1981

J.Soc.Brew.Japan

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Determination of Carbonyl Compounds in Alcoholic Beverages

Inahashi¹,

Yoshida²,

Tadenuma³

1997

J.Brew.Soc.Japan

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