| Literature DB >> 26479869 |
Takashi Koyanagi1,2, Akira Nakagawa1, Masashi Kiyohara1, Hiroshi Matsui1, Atsushi Tsuji3, Florin Barla2, Harumi Take3, Yoko Katsuyama3, Koji Tokuda4, Shizuo Nakamura3, Hiromichi Minami1, Toshiki Enomoto2, Takane Katayama5, Hidehiko Kumagai1.
Abstract
Sake is made from steamed rice, malted rice, and water. Sake production begins with the preparation of a small-scale starter (moto); the quality of moto significantly influences the flavor and richness of sake. In the traditional starter, yamahai-moto, the growth of naturally occurring lactic acid bacteria represses the putrefactive micro-organisms, whereas in the modern starter, sokujo-moto, this is achieved by adding lactic acid. In this study, the successive change in bacterial flora of yamahai-moto was analyzed by pyrosequencing 16S ribosomal RNA genes. Lactobacillus was dominant throughout the process (93-98%). Nitrate-reducing bacteria that have been generally assumed to be the first colonizers of yamahai-moto were scarcely found in the early stage, but Lactobacillus acidipiscis dominated. Lactobacillus sakei drastically increased in the middle stage. This is the first report, though one case study, to show how the early stage microbiota in Japanese yamahai-moto is varyingly controlled without nitrate-reducing bacteria using next-generation sequencing.Entities:
Keywords: 16S rDNA pyrosequencing; Japanese sake starter; fermented food microbiota; lactic acid bacteria; yamahai-moto
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Year: 2015 PMID: 26479869 DOI: 10.1080/09168451.2015.1095067
Source DB: PubMed Journal: Biosci Biotechnol Biochem ISSN: 0916-8451 Impact factor: 2.043