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  • Combined effects of nutrients and temperature on the production of fermentative aromas by Saccharomyces cerevisiae during wine fermentation.

Combined effects of nutrients and temperature on the production of fermentative aromas by Saccharomyces cerevisiae during wine fermentation.

Applied microbiology and biotechnology (2014-11-22)
Stéphanie Rollero, Audrey Bloem, Carole Camarasa, Isabelle Sanchez, Anne Ortiz-Julien, Jean-Marie Sablayrolles, Sylvie Dequin, Jean-Roch Mouret
RESUMO

Volatile compounds produced by yeast during fermentation greatly influence the organoleptic qualities of wine. We developed a model to predict the combined effects of initial nitrogen and phytosterol content and fermentation temperature on the production of volatile compounds. We used a Box-Behnken design and response surface modeling to study the response of Lalvin EC1118® to these environmental conditions. Initial nitrogen content had the greatest influence on most compounds; however, there were differences in the value of fermentation parameters required for the maximal production of the various compounds. Fermentation parameters affected differently the production of isobutanol and isoamyl alcohol, although their synthesis involve the same enzymes and intermediate. We found differences in regulation of the synthesis of acetates of higher alcohols and ethyl esters, suggesting that fatty acid availability is the main factor influencing the synthesis of ethyl esters whereas the production of acetates depends on the activity of alcohol acetyltransferases. We also evaluated the effect of temperature on the total production of three esters by determining gas-liquid balances. Evaporation largely accounted for the effect of temperature on the accumulation of esters in liquid. Nonetheless, the metabolism of isoamyl acetate and ethyl octanoate was significantly affected by this parameter. We extended this study to other strains. Environmental parameters had a similar effect on aroma production in most strains. Nevertheless, the regulation of the synthesis of fermentative aromas was atypical in two strains: Lalvin K1M® and Affinity™ ECA5, which produces a high amount of aromatic compounds and was obtained by experimental evolution.

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Álcool etílico, puro, 200 proof, for molecular biology
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Acetato de etila, ACS reagent, ≥99.5%
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Glicerol, ACS reagent, ≥99.5%
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Glicerol, for molecular biology, ≥99.0%
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Acetato de etila, suitable for HPLC, ≥99.7%
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Álcool etílico, puro, 200 proof, HPLC/spectrophotometric grade
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Glicerol, ReagentPlus®, ≥99.0% (GC)
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Acetato de etila, HPLC Plus, for HPLC, GC, and residue analysis, 99.9%
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Álcool etílico, puro, 200 proof, meets USP testing specifications
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Álcool etílico, puro, 190 proof, for molecular biology
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Etanol, ACS reagent, prima fine spirit, without additive, F15 o1
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Propionic acid, ≥99.5%
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Glicerol, 83.5-89.5% (T)
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Butyric acid, ≥99%
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Octanoic acid, ≥99%
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Lauric acid, ≥98%, FCC, FG
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Decanoic acid, ≥99.5%, FCC, FG
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