AI Article Synopsis
- Yeast polysaccharides, specifically mannoproteins, are crucial for stabilizing wine against colloidal and tartrate salt issues, but direct isolation from yeast cultures is not cost-effective.
- A non-yeast source from wine fermentation releases higher amounts of polysaccharides, allowing for recovery through ultrafiltration.
- Added polysaccharides improve wine protein stability by reducing haziness and aggregate sizes, as confirmed by turbidity measurements and SDS-PAGE analysis.
Article Abstract
Nowadays commercial preparations of yeast polysaccharides (PSs), in particular mannoproteins, are widely used for wine colloidal and tartrate salt stabilization. In this context, the industry has developed different processes for the isolation and purification of PSs from the cell wall of . This yeast releases limited amounts of mannoproteins in the growth medium, thus making their direct isolation from the culture broth not economically feasible. On the contrary, , a non- yeast isolated from wine, releases significant amounts of PSs during the alcoholic fermentation. In the present work, PSs released by were recovered from the growth medium by ultrafiltration and their impact on the wine colloidal stability was evaluated. Interestingly, these PSs contribute positively to the wine protein stability. The visible haziness of the heat-treated wine decreases as the concentration of added PSs increases. SDS-PAGE Gel electrophoresis results of the haze and of the supernatant after the heat stability test are consistent with the turbidity measurements. Moreover, particle size distributions of the heat-treated wines, as obtained by Dynamic Light Scattering (DLS), show a reduction in the average dimension of the protein aggregates as the concentration of added PSs increases.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7601295 | PMC |
| http://dx.doi.org/10.3390/foods9101407 | DOI Listing |
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