Search results for "S. uvarum"

showing 4 items of 4 documents

Differential Contribution of the Parental Genomes to a S. cerevisiae × S. uvarum Hybrid, Inferred by Phenomic, Genomic, and Transcriptomic Analyses, …

2020

In European regions of cold climate, S. uvarum can replace S. cerevisiae in wine fermentations performed at low temperatures. S. uvarum is a cryotolerant yeast that produces more glycerol, less acetic acid and exhibits a better aroma profile. However, this species exhibits a poor ethanol tolerance compared with S. cerevisiae. In the present study, we obtained by rare mating (non-GMO strategy), and a subsequent sporulation, an interspecific S. cerevisiae × S. uvarum spore-derivative hybrid that improves or maintains a combination of parental traits of interest for the wine industry, such as good fermentation performance, increased ethanol tolerance, and high glycerol and aroma productions. G…

0301 basic medicineMating typeHistologylcsh:BiotechnologySaccharomyces cerevisiaeBiomedical EngineeringBioengineeringLocus (genetics)Ethanol tolerance02 engineering and technologySaccharomyces cerevisiaeBiologyGenome sequencingGenome03 medical and health scienceslcsh:TP248.13-248.65Artificial hybridWine fermentationHybridFermentation in winemakingGeneticsfungifood and beverages021001 nanoscience & nanotechnologybiology.organism_classificationYeastethanol tolerancegenome sequencing030104 developmental biologyS. uvarumwine fermentationartificial hybridRNA-seqPloidy0210 nano-technologyBiotechnologyFrontiers in Bioengineering and Biotechnology
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Adaptive response to wine selective pressures shapes the genome of a Saccharomyces interspecies hybrid

2021

During industrial processes, yeasts are exposed to harsh conditions, which eventually lead to adaptation of the strains. In the laboratory, it is possible to use experimental evolution to link the evolutionary biology response to these adaptation pressures for the industrial improvement of a specific yeast strain. In this work, we aimed to study the adaptation of a wine industrial yeast in stress conditions of the high ethanol concentrations present in stopped fermentations and secondary fermentations in the processes of champagne production. We used a commercial Saccharomyces cerevisiae × S. uvarum hybrid and assessed its adaptation in a modified synthetic must (M-SM) containing high ethan…

GeneticsFermentation in winemakingWine0303 health sciencesExperimental evolutionStrain (chemistry)030306 microbiologySaccharomyces cerevisiaeGeneral MedicineSaccharomyces cerevisiaeBiologybiology.organism_classificationGenome sequencingSaccharomycesSaccharomyces uvarumYeast03 medical and health sciencesS. uvarumArtificial hybridAdaptationAdaptationRNA-seq030304 developmental biology
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Interspecific hybridisation among diverse Saccharomyces species: A combined biotechnological solution for low-temperature and nitrogen-limited wine f…

2019

Lack of the prezygotic barrier in the Saccharomyces genus facilitates the construction of artificial interspecific hybrids among different Saccharomyces species. Hybrids that maintain the interesting features of parental strains have been applied in industry for many beneficial purposes. Two of the most important problems faced by wine makers is nitrogen deficiency in grape must and low-temperature fermentation. In our study, hybrids were constructed by using selected low nitrogen-demanding cryotolerant S. eubayanus, S. uvarum strains and S. cerevisiae. The fermentation capacity of the hybrid strains was tested under four conditions by combining two temperatures, 12 °C and 28 °C, and two ni…

S. eubayanusNitrogenmedia_common.quotation_subjectS. cerevisiaeWineMicrobiologySaccharomycesCompetition (biology)Saccharomyces03 medical and health sciencesHybridisationVitisFood scienceAromaAcetic Acid030304 developmental biologymedia_commonHybridWine0303 health sciencesTemperaturesbiology030306 microbiologyNitrogen deficiencyfood and beveragesEstersGeneral MedicineInterspecific competitionbiology.organism_classificationCold TemperatureS. uvarumAlcoholsFermentationOdorantsFood MicrobiologyHybridization GeneticNitrogen requirementFermentationBiotechnologyFood Science
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Differential Contribution of the Parental Genomes to a

2019

In European regions of cold climate, S. uvarum can replace S. cerevisiae in wine fermentations performed at low temperatures. S. uvarum is a cryotolerant yeast that produces more glycerol, less acetic acid and exhibits a better aroma profile. However, this species exhibits a poor ethanol tolerance compared with S. cerevisiae. In the present study, we obtained by rare mating (non-GMO strategy), and a subsequent sporulation, an interspecific S. cerevisiae × S. uvarum spore-derivative hybrid that improves or maintains a combination of parental traits of interest for the wine industry, such as good fermentation performance, increased ethanol tolerance, and high glycerol and aroma productions. G…

genome sequencingS. uvarumwine fermentationartificial hybridfungifood and beveragesBioengineering and BiotechnologySaccharomyces cerevisiaeRNA-seqethanol toleranceOriginal ResearchFrontiers in bioengineering and biotechnology
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