Jelena Topić Božič, D. Korte, B. Mozetič Vodopivec, L. Butinar
{"title":"酵母与葡萄酒颜色","authors":"Jelena Topić Božič, D. Korte, B. Mozetič Vodopivec, L. Butinar","doi":"10.17508/cjfst.2019.11.2.17","DOIUrl":null,"url":null,"abstract":"Historically, yeasts from the genus Saccharomyces have been conventionally \nused in the production of wine and other fermented beverages. Traditionally, \ntheir main role has been the transformation of sugars into ethanol, however, \nresearch has shown that yeasts also influence wine aroma, texture, flavour and \ncolour. In lieu of this, non-Saccharomyces yeasts, which have been considered \nas spoilage yeasts in the past, have been exploited as potential wine starters \nbecause they can improve the sensorial characteristics of wines. Because they \nare considered to be poor fermenters, mixed fermentations with \nSaccharomyces yeasts are applied either in a form of co-inoculation or \nsequential fermentation. Among wine characteristics, colour of red wines has \nspecial importance because it is the first wine characteristic perceived by the \nconsumers. Red wine colour stems from anthocyanins, located in the grape \nskins that are extracted to grape must during maceration/fermentation. Various \ntechnological strategies in the winemaking process have already been \nemployed to improve wine colour. One of them is yeast-mediated colour \nimprovement employing a careful selection of yeast starters that can promote \nthe synthesis of stable colour pigments pyranoanthocyanins from \nanthocyanins. The two most known groups of pyranoanthocyanins are \nvinylphenolic pyranoanthocyanins and vitisins. In comparison to anthocyanins \nthey are less susceptible to pH, SO2 bleaching and oxygen presence. Their \nconcentration in the wines differs according to the yeast strain used and the \ntype of fermentation applied. Furthermore, wine colour can also be influenced \nby the cell wall adsorption capability of yeasts. Numerous studies have shown \nthe positive influence of a careful selection of non-Saccharomyces yeast in \npromoting stable pigments synthesis in the production of wine. In this review, \nwe discuss how application of different yeast species – Saccharomyces and \nnon-Saccharomyces can enhance wine colour through different fermentation \nstrategies applied","PeriodicalId":10771,"journal":{"name":"Croatian journal of food science and technology","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-11-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.17508/cjfst.2019.11.2.17","citationCount":"3","resultStr":"{\"title\":\"Yeasts and wine colour\",\"authors\":\"Jelena Topić Božič, D. Korte, B. Mozetič Vodopivec, L. 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Red wine colour stems from anthocyanins, located in the grape \\nskins that are extracted to grape must during maceration/fermentation. Various \\ntechnological strategies in the winemaking process have already been \\nemployed to improve wine colour. One of them is yeast-mediated colour \\nimprovement employing a careful selection of yeast starters that can promote \\nthe synthesis of stable colour pigments pyranoanthocyanins from \\nanthocyanins. The two most known groups of pyranoanthocyanins are \\nvinylphenolic pyranoanthocyanins and vitisins. In comparison to anthocyanins \\nthey are less susceptible to pH, SO2 bleaching and oxygen presence. Their \\nconcentration in the wines differs according to the yeast strain used and the \\ntype of fermentation applied. Furthermore, wine colour can also be influenced \\nby the cell wall adsorption capability of yeasts. Numerous studies have shown \\nthe positive influence of a careful selection of non-Saccharomyces yeast in \\npromoting stable pigments synthesis in the production of wine. 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Historically, yeasts from the genus Saccharomyces have been conventionally
used in the production of wine and other fermented beverages. Traditionally,
their main role has been the transformation of sugars into ethanol, however,
research has shown that yeasts also influence wine aroma, texture, flavour and
colour. In lieu of this, non-Saccharomyces yeasts, which have been considered
as spoilage yeasts in the past, have been exploited as potential wine starters
because they can improve the sensorial characteristics of wines. Because they
are considered to be poor fermenters, mixed fermentations with
Saccharomyces yeasts are applied either in a form of co-inoculation or
sequential fermentation. Among wine characteristics, colour of red wines has
special importance because it is the first wine characteristic perceived by the
consumers. Red wine colour stems from anthocyanins, located in the grape
skins that are extracted to grape must during maceration/fermentation. Various
technological strategies in the winemaking process have already been
employed to improve wine colour. One of them is yeast-mediated colour
improvement employing a careful selection of yeast starters that can promote
the synthesis of stable colour pigments pyranoanthocyanins from
anthocyanins. The two most known groups of pyranoanthocyanins are
vinylphenolic pyranoanthocyanins and vitisins. In comparison to anthocyanins
they are less susceptible to pH, SO2 bleaching and oxygen presence. Their
concentration in the wines differs according to the yeast strain used and the
type of fermentation applied. Furthermore, wine colour can also be influenced
by the cell wall adsorption capability of yeasts. Numerous studies have shown
the positive influence of a careful selection of non-Saccharomyces yeast in
promoting stable pigments synthesis in the production of wine. In this review,
we discuss how application of different yeast species – Saccharomyces and
non-Saccharomyces can enhance wine colour through different fermentation
strategies applied
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