AI Article Synopsis
- A genome-shuffled strain of Candida versatilis S3-5 was tested for its fermentation performance during soy sauce production compared to a wild-type strain.
- The S3-5 strain produced ethanol more rapidly and in larger quantities than the WT, along with higher levels of organic acids like malic, citric, and succinic acids.
- Additionally, S3-5 generated significantly more flavor compounds, particularly esters, suggesting it has better metabolic capabilities and could be beneficial as a salt-tolerant yeast in fermentation processes.
Article Abstract
Background: The fermentation performance of a genome-shuffled strain of Candida versatilis S3-5, isolated for improved tolerance to salt, and wild-type (WT) strain were analysed. The fermentation parameters, such as growth, reducing sugar, ethanol, organic acids and volatile compounds, were detected during soy sauce fermentation process.
Results: The results showed that ethanol produced by the genome shuffled strain S3-5 was increasing at a faster rate and to a greater extent than WT. At the end of the fermentation, malic acid, citric acid and succinic acid formed in tricarboxylic acid cycle after S3-5 treatment elevated by 39.20%, 6.85% and 17.09% compared to WT, respectively. Moreover, flavour compounds such as phenethyl acetate, ethyl vanillate, ethyl acetate, isoamyl acetate, ethyl myristate, ethyl pentadecanoate, ethyl palmitate and phenylacetaldehyde produced by S3-5 were 2.26, 2.12, 2.87, 34.41, 6.32, 13.64, 2.23 and 78.85 times as compared to WT.
Conclusions: S3-5 exhibited enhanced metabolic ability as compared to the wild-type strain, improved conversion of sugars to ethanol, metabolism of organic acid and formation of volatile compounds, especially esters, Moreover, S3-5 might be an ester-flavour type salt-tolerant yeast. © 2016 Society of Chemical Industry.
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| http://dx.doi.org/10.1002/jsfa.7728 | DOI Listing |
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