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The budding yeast has been extensively studied for its physiological performance in fermentative environments and, due to its remarkable plasticity, is used in numerous industrial applications like in brewing, baking and wine fermentations. Furthermore, thanks to its small and relatively simple eukaryotic genome, the molecular mechanisms behind its evolution and domestication are more easily explored. Considerable work has been directed into examining the industrial adaptation processes that shaped the genotypes of species and hybrids belonging to the Saccharomyces group, specifically in relation to beverage fermentation performances. A variety of genetic mechanisms are responsible for the yeast response to stress conditions, such as genome duplication, chromosomal re-arrangements, hybridization and horizontal gene transfer, and these genetic alterations are also contributing to the diversity in the Saccharomyces industrial strains. Here, we review the recent genetic and evolutionary studies exploring domestication and biodiversity of yeast strains.
Highlights
Specialty section: This article was submitted to Evolutionary and Genomic Microbiology, a section of the journal Frontiers in Genetics
A variety of genetic mechanisms are responsible for the yeast response to stress conditions, such as genome duplication, chromosomal re-arrangements, hybridization and horizontal gene transfer, and these genetic alterations are contributing to the diversity in the Saccharomyces industrial strains
In 1890s, the first inoculation of a grape must with a yeast starter was performed. These practices became more common and Saccharomyces cerevisiae starters are primarily being used in wine and beer fermentations, to facilitate the consistency of fermented beverages resulting in products with stable characteristics, aromas and flavors as well as ensuring rapid fermentation times (Valero et al, 2007)
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Summary
Genomic Adaptation of Saccharomyces Species to Industrial Environments
Reviewed by: Alexander DeLuna, Instituto Politécnico Nacional de México (CINVESTAV), Mexico. The budding yeast has been extensively studied for its physiological performance in fermentative environments and, due to its remarkable plasticity, is used in numerous industrial applications like in brewing, baking and wine fermentations. Thanks to its small and relatively simple eukaryotic genome, the molecular mechanisms behind its evolution and domestication are more explored. Considerable work has been directed into examining the industrial adaptation processes that shaped the genotypes of species and hybrids belonging to the Saccharomyces group, in relation to beverage fermentation performances. A variety of genetic mechanisms are responsible for the yeast response to stress conditions, such as genome duplication, chromosomal re-arrangements, hybridization and horizontal gene transfer, and these genetic alterations are contributing to the diversity in the Saccharomyces industrial strains. We review the recent genetic and evolutionary studies exploring domestication and biodiversity of yeast strains
YEAST EVOLUTION IN INDUSTRIAL SETTINGS
MECHANISMS TO INDUCE GENETIC VARIATION IN INDUSTRIAL STRAINS
Application in cool climate vineyards
SINGLE NUCLEOTIDE POLYMORPHISMS
HORIZONTAL GENE TRANSFER
MITOCHONDRIAL INHERITANCE
FUTURE PERSPECTIVES ON INDUSTRIAL STRAIN IMPROVEMENT
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Fermentative Environments- Horizontal Gene Transfer
- Wine Fermentations
- Physiological Performance
- Budding Yeast + Show 5 more
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