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Tyrosinase Inhibitory Activity of Soybeans Fermented with Bacillus subtilis Capable of Producing a Phenolic Glycoside, Arbutin.


ABSTRACT: The production of arbutin, an effective tyrosinase inhibitor as well as an outstanding antioxidant, by 691 Bacillus strains isolated from soybean-based foods was tested to enhance the tyrosinase inhibitory activity of soybeans via fermentation with the strains. Among the strains tested, the 5 strains capable of significantly producing arbutin were identified as B. subtilis via 16S rRNA sequencing. When soybeans were fermented with each of the selected strains, the arbutin content was highest on day 1 of fermentation and decreased thereafter. However, the tyrosinase inhibitory activity of the fermented soybeans continuously increased as fermentation progressed, whereas the activity of non-inoculated soybeans was consistently low. The results indicate that arbutin enhances the tyrosinase inhibitory activity of soybeans in the early period of fermentation, while other substances besides arbutin contribute to the activity in the later period. Consequently, soybeans fermented with arbutin-producing B. subtilis strains could be considered as a natural source of cosmeceuticals and nutricosmetics used in skin lightening and may be of interest in the food industry because they contain well-known and powerful antioxidants such as arbutin and other substances.

SUBMITTER: Jin YH 

PROVIDER: S-EPMC7766266 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Tyrosinase Inhibitory Activity of Soybeans Fermented with <i>Bacillus subtilis</i> Capable of Producing a Phenolic Glycoside, Arbutin.

Jin Young Hun YH   Jeon Ah Ran AR   Mah Jae-Hyung JH  

Antioxidants (Basel, Switzerland) 20201218 12


The production of arbutin, an effective tyrosinase inhibitor as well as an outstanding antioxidant, by 691 <i>Bacillus</i> strains isolated from soybean-based foods was tested to enhance the tyrosinase inhibitory activity of soybeans via fermentation with the strains. Among the strains tested, the 5 strains capable of significantly producing arbutin were identified as <i>B. subtilis</i> via 16S rRNA sequencing. When soybeans were fermented with each of the selected strains, the arbutin content w  ...[more]

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