Yeast Fermentation at Low Temperatures: Adaptation to Changing Environmental Conditions and Formation of Volatile Compounds

Liszkowska, Wiktoria; Berłowska, Joanna

doi:10.3390/molecules26041035

Cited by 56 publications

(21 citation statements)

References 166 publications

(181 reference statements)

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“…However, the continuous improvement of fermentation kinetics as the repeated batches proceeded, indicated adaptation of the thermally-dried cells [25], an attribute that has also been noticed when other drying methods have been applied [40][41][42]. On the other hand, at 5 • C, ethanol yield values exhibited a substantial drop (although not significant in the case of immobilized cells), which may be attributed to a variety of causes like greater yeast susceptibility to ethanol toxicity in low temperatures [43], oxidative stress [44], changes to yeast metabolism due to cold stress [45,46], or even cell exhaustion after an increased number of repeated batches [47]. As a result, significantly lower sugar conversion values (p < 0.05) and significantly (p < 0.05) higher residual sugars were documented at 5 • C, in all cases.…”

Section: Fermentation Efficiencymentioning

confidence: 84%

Preliminary Evaluation of the Use of Thermally-Dried Immobilized Kefir Cells in Low Alcohol Winemaking

et al. 2022

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Low alcohol wines (≤10.5% vol) are novel products that have gradually been gaining the consumers’ and market’s interest over the last decade. Taking into account the technological properties of immobilized cell systems alongside with the commercial need for dry cultures, the aim of the present study was to assess the suitability of thermally-dried immobilized kefir cells on DCM, apples pieces, and grape skins in low alcohol wine production. Storage of thermally-dried kefir culture in various temperatures (−18, 5, and 20 °C) resulted in high viability rates for immobilized cells (up to 93% for yeasts/molds immobilized on grape skins and stored at −18 °C for 6 months). Fermentation activity was maintained after storage in all cases, while high operational stability was confirmed in repeated batch fermentations for a period of 6 months. Principal Component Analysis (PCA) revealed that the fermentation temperature rather than the state of kefir culture affected significantly volatiles detected by Head Space Solid-Phase Microextraction Gas Chromatography–Mass Spectrometry analysis. Notably, all new products were of high quality and approved by the sensory panel.

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Section: Fermentation Efficiencymentioning

confidence: 84%

Preliminary Evaluation of the Use of Thermally-Dried Immobilized Kefir Cells in Low Alcohol Winemaking

et al. 2022

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“…No significant differences were observed regarding the conversion yield of ethanol between ferments of the same strain provided with different initial YAN. This outcome could indicate that the relatively low fermentation temperature and the yeast strain pose a more significant role compared to YAN [24,25].…”

Section: Effect Of Yan Content On Fermentation Kineticsmentioning

confidence: 99%

Effect of Yeast Assimilable Nitrogen Content on Fermentation Kinetics, Wine Chemical Composition and Sensory Character in the Production of Assyrtiko Wines

et al. 2022

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Two wild-type Saccharomyces cerevisiae yeast strains (Sa and Sb) were tested for white wine production using Assyrtiko grape of Santorini. A third commercial Saccharomyces strain was also studied for comparison reasons. Two concentrations of yeast extract and diammonium phosphate (DAP) were added to the must (150 and 250 mg/L) in order to evaluate the effect of nitrogen content on the final wine quality. Analytical methods (HPLC, GC-MS) and sensory analysis were employed to assess the quality of the wines. Fermentation kinetics were monitored throughout the experiment. By the second day of fermentation, all strains showed an approximate consumption of 70% of amino acids. Differences among strains were observed regarding inorganic nitrogen requirements. Sb strain resulted in higher concentrations of higher alcohols (1.9-fold) and ketones (5.6-fold) and lower concentrations of esters (1.2-fold) compared to the control, while Sa strain resulted in higher content of fatty acids (2.1-fold). Both indigenous strains scored better results in aroma quality, body and acidity compared to control. The overall evaluation of the data highlights the great potential of the indigenous S. cerevisiae strains as fermentation starters providing promising results in the sector of terroir wines.

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“…In recent years, fermented milk products have frequently served as carriers for probiotics, and it is now well established that these products can improve human health (Akdeniz and Akalın, 2019;Liszkowska and Berlowska, 2021). During fermentation processes conducted by probiotics, it is possible to obtain numerous bioactive compounds, such as peptides, AA, and short-chain fatty acids (SCFA) and thus, they could exert probiotic effects, such as improvement of intestinal health, prevention of various types of cancer, and promotion of the immune response (Li et al, 2017a;Hou et al, 2019;Liszkowska and Berlowska, 2021). However, the steps of technological processing, storage, and consumption of food all can affect probiotics viability, and therefore, their probiotic effects and sensory profiles of the final products are limited (Fiocco et al, 2020;Lesme et al, 2020;Sakandar and Zhang, 2021).…”

Section: Introductionmentioning

confidence: 99%

Mesopic fermentation contributes more to the formation of important flavor compounds and increased growth of Lactobacillus casei Zhang than does high temperature during milk fermentation and storage

Sun

Peng

Wang

et al. 2022

Journal of Dairy Science

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Probiotic fermented milk is more and more popular due to their positive health associated properties. However, fermentation temperature and other process conditions may affect the growth and metabolism of probiotic strains, thereby affecting quality of the final products. In this study, the growth behaviors and metabolomic profiles of yogurts induced by Lactobacillus casei Zhang at fermentation termination (FT) and d 10 of storage (S10d) under different fermentation temperatures at 37°C (low) and 42°C (high) were analyzed and compared using liquid chromatography-mass spectrometry (MS)-and gas chromatography-MSbased metabolomics approaches. At 37°C, the growth of L. casei Zhang at FT and S10d was significantly increased, and the potential relationship between riboflavin, starch, and sucrose metabolism and growth of L. casei Zhang may be mutually promoting. Fermentation temperature (37°C and 42°C) affected volatile and nonvolatile metabolomic profiles and pathways. The levels of acetaldehyde, 2,3-butanedione, acetoin, butyric acid, decanoic acid, hexanoic acid, and octanoic acid were significantly higher at 37°C than at 42°C at FT and S10d. This indicates that the low temperature (37°C) most likely contributes more to the formation of important flavor compounds during the fermentation process and production of short-chain fatty acids during storage.

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Yeast Fermentation at Low Temperatures: Adaptation to Changing Environmental Conditions and Formation of Volatile Compounds

Cited by 56 publications

References 166 publications

Preliminary Evaluation of the Use of Thermally-Dried Immobilized Kefir Cells in Low Alcohol Winemaking

Preliminary Evaluation of the Use of Thermally-Dried Immobilized Kefir Cells in Low Alcohol Winemaking

Effect of Yeast Assimilable Nitrogen Content on Fermentation Kinetics, Wine Chemical Composition and Sensory Character in the Production of Assyrtiko Wines

Mesopic fermentation contributes more to the formation of important flavor compounds and increased growth of Lactobacillus casei Zhang than does high temperature during milk fermentation and storage

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