Co-culture fermentation characteristics of antifreeze yeast and mining of related freezing-resistant genes

In this study, Debaryomyces hansenii Y-3 with good freeze–thaw tolerance and Saccharomyces cerevisiae H-1 with strong fermentation ability were used to obtain a mixed starter culture (MSC), which can be used for frozen dough production. Angel yeast A-1 and a single-strain S. cerevisiae H-1 were used...

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Bibliographic Details
Published in:European food research & technology 2023-05, Vol.249 (5), p.1161-1172
Main Authors: He, Wenqian, Xue, Meicui, Yu, Hui, Zhang, Xiuqin, Lin, Yi, Chen, Yuying, Wang, Liping
Format: Article
Language:English
Subjects:
1-Hexanol
Agriculture
Analytical Chemistry
Aroma compounds
Biotechnology
Bread
Butanol
Chemistry
Chemistry and Materials Science
Debaryomyces hansenii
Dough
Electronic noses
Fermentation
Flavor compounds
Flavors
Food Science
Forestry
Freeze-thaw durability
Freeze-thawing
Freezing
Gas chromatography
Gene sequencing
Genes
Genomes
Glycerol
Headspace
Hexanol
Isopentyl alcohol
Localization
Mass spectrometry
Mass spectroscopy
Original Paper
Phenylethyl alcohol
Propanol
Saccharomyces cerevisiae
Sensory evaluation
Solid phase methods
Solid phases
Starter cultures
Trehalose
Whole genome sequencing
Yeast
Yeasts
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Summary:In this study, Debaryomyces hansenii Y-3 with good freeze–thaw tolerance and Saccharomyces cerevisiae H-1 with strong fermentation ability were used to obtain a mixed starter culture (MSC), which can be used for frozen dough production. Angel yeast A-1 and a single-strain S. cerevisiae H-1 were used as references. Sensory evaluation and electronic nose combined with headspace solid-phase micro-extraction gas chromatography–mass spectrometry (HS–SPME–GC–MS) were used to analyze the taste and flavor of fermented steamed bread samples. The results showed that more kinds of volatile flavor compounds were detected in steamed bread samples fermented by MSC than in the reference group. Among all frozen dough steamed bread samples, only MSC-fermented samples could detect compounds, such as 2-methyl-1-propanol, 3-methyl-1-butanol, 1-hexanol, and 1-pentanol. Moreover, the content of ethyl octanoate, phenethyl alcohol, and 3-methyl-1-butanol was the highest in this sample. Meanwhile, whole-genome sequencing analysis was performed on D. hansenii Y-3 and S. cerevisiae H-1. Based on KEGG pathway localization, four main pathways are involved in yeast freeze–thaw tolerance. Through genome comparison analysis, there were significant differences in the related coding genes involved in the synthesis of trehalose, glycerol, proline, and arginine that affect their freeze–thaw resistance in the genomes of the two yeast strains. Therefore, it can be speculated that these significant differences are the reason for their large differences in freeze–thaw resistance.
ISSN:1438-2377
1438-2385
DOI:10.1007/s00217-023-04204-1