Microbial interactions in alcoholic beverages / Interacciones microbianas en bebidas alcohólicas
Int. microbiol
; 25(1): 1-15, Ene. 2022. ilus
Article
in English
| IBECS
| ID: ibc-216008
Responsible library:
ES1.1
Localization: ES15.1 - BNCS
ABSTRACT
This review examines the different types of interactions between the microorganisms involved in the fermentation processes of alcoholic beverages produced all over the world from cereals or fruit juices. The alcoholic fermentation converting sugars into ethanol is usually carried out by yeasts, mainly Saccharomyces cerevisiae, which can grow directly using fruit sugars, such as those in grapes for wine or apples for cider, or on previously hydrolyzed starch of cereals, such as for beers. Some of these beverages, or the worts obtained from cereals, can be distilled to obtain spirits. Besides S. cerevisiae, all alcoholic beverages can contain other microorganisms and especially in spontaneous fermentation when starter cultures are not used. These other microbes are mostly lactic acid bacteria and other yeaststhe non-Saccharomyces yeasts. The interactions between all these microorganisms are very diverse and complex, as in any natural occurring ecosystem, including food fermentations. To describe them, we have followed a simplified ecological classification of the interactions. The negative ones are amensalism, by which a metabolic product of one species has a negative effect on others, and antagonism, by which one microbe competes directly with others. The positive interactions are commensalism, by which one species has benefits but no apparent effect on others, and synergism, by which there are benefits for all the microbes and also for the final product. The main interactions in alcoholic beverages are between S. cerevisiae and non-Saccharomyces and between yeasts and lactic acid bacteria. These interactions can be related to metabolites produced by fermentation such as ethanol, or to secondary metabolites such as proteinaceous toxins, or are feed-related, either by competition for nutrients or by benefit from released compounds during yeast autolysis...(AU)
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Collection:
National databases
/
Spain
Database:
IBECS
Main subject:
Symbiosis
/
Wine
/
Yeasts
/
Lactic Acid
/
Drug Synergism
/
Microbial Interactions
/
Fermentation
Limits:
Humans
Language:
English
Journal:
Int. microbiol
Year:
2022
Document type:
Article
Institution/Affiliation country:
Universitat Rovira i Virgili/Spain