M. Feuillat scite author profile

Release of polysaccharides by three strains of Saccharomyces cerevisiae during alcoholic fermentation in synthetic medium and red wine was studied. Polysaccharides after isolation from media by ethanol precipitation were quantified by a colourimetric method as well as by HPLC assay in wines. Yeast strains differed in their capacity to release polysaccharides into the medium and a maximum concentration of 100mg/L was observed. For all strains, release varied according to metabolic phase, with greater release occurring when the yeast mortality rate was high. Mannose was the main component (90%) of these polysaccharides, with the exception of yeast strain BM45 which contained approximatively 50% glucose and 50% mannose. This composition may be related to cell wall composition. The results suggest that polysaccharides can combine with anthocyanins and tannins in wine. This combination seems to increase colour stability and decrease astringency.

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Influence of Mannaproteins from Yeast on the Aroma Intensity of a Model Wine

Lubbers

Voilley

Feuillat

et al. 1994

LWT - Food Science and Technology

114

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Protease A activity and nitrogen fractions released during alcoholic fermentation and autolysis in enological conditions

Alexandre

Heintz

Chassagne

et al. 2001

Journal of Industrial Microbiology and Biotechnology

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Determination of protease A activity during alcoholic fermentation of a synthetic must (pH 3.5 at 25 degrees C) and during autolysis showed that a sixfold induction of protease A activity occurred after sugar exhaustion, well before 100% cell death occurred. A decrease in protease A activity was observed when yeast cell autolysis started. Extracellular protease A activity was detected late in the autolysis process, which suggests that protease A is not easily released. Evolution of amino acids and peptides was determined during alcoholic fermentation and during autolysis. Amino acids were released in early stationary phase. These amino acids were subsequently assimilated during the fermentation. The same pattern was observed for peptides; this has never been reported previously. During autolysis, the concentration of amino acids and peptides increased to reach a maximum of 20 and 40 mg N l(-1), respectively. This study supports the idea that although protease A activity seemed to be responsible for peptides release, there is no clear correlation among protease A activity, cell death, and autolysis. The amino acid composition of the peptides showed some variations between peptides released during alcoholic fermentation and during autolysis. Depending on aging time on yeast lees, the nature of the peptides present in the medium changed, which could lead to different organoleptic properties.

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Influence of macromolecules and treatments on the behavior of aroma compounds in a model wine

Voilley¹,

Lamer²,

Dubois³

et al. 1990

J. Agric. Food Chem.

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Release of Nucleotides and Nucleosides during Yeast Autolysis: Kinetics and Potential Impact on Flavor

Charpentier

Aussenac

Charpentier

et al. 2005

J. Agric. Food Chem.

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Nucleotides, particularly 5'-nucleotides, are important flavoring agents found in many foods and beverages. Their precise effect on the flavor of wines aged on lees has not been examined previously. In this study nucleotides and nucleosides released by yeast during autolysis in a model wine system and in Champagne wines were identified and quantified, and their impact on wine flavor was determined. Ribonucleotides only were detected in yeast autolysate and in Champagne wines. In wines ribonucleotides were quantified by tandem mass spectrometry coupled to HPLC. The maximum concentration of total nucleotides was very low with a maximum of approximately 3 mg/L in wine aged on yeasts for 9 years. In young wines the most important nucleotide was 5'-UMP, but after 2 years of aging its concentration decreased and the concentration of 5'-GMP slowly increased. The threshold values of the most representative nucleotides in Champagne wines were higher than the concentrations found in the same wines. However, it is known that there is synergism between the different nucleotides and also in the presence of glutamic acid. This phenomenon could explain the difference observed in descriptive profiles of wines spiked with nucleotides.

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M. Feuillat

Release of polysaccharides by yeasts and the influence of released polysaccharides on colour stability and wine astringency

Influence of Mannaproteins from Yeast on the Aroma Intensity of a Model Wine

Protease A activity and nitrogen fractions released during alcoholic fermentation and autolysis in enological conditions

Influence of macromolecules and treatments on the behavior of aroma compounds in a model wine

Release of Nucleotides and Nucleosides during Yeast Autolysis: Kinetics and Potential Impact on Flavor

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