Search results for "Wine yeasts"

showing 8 items of 8 documents

Food-grade argan oil supplementation in molasses enhances fermentative performance and antioxidant defenses of active dry wine yeast

2015

The tolerance of the yeast Saccharomyces cerevisiae to desiccation is important for the use of this microorganism in the wine industry, since active dry yeast (ADY) is routinely used as starter for must fermentations. Both biomass propagation and dehydration cause cellular oxidative stress, therefore negatively affecting yeast performance. Protective treatments against oxidative damage, such as natural antioxidants, may have important biotechnological implications. In this study we analysed the antioxidant capacity of pure chemical compounds (quercetin, ascorbic acid, caffeic acid, oleic acid, and glutathione) added to molasses during biomass propagation, and we determine several oxidative …

Active dry wine yeastsAntioxidantfood.ingredientmedicine.medical_treatmentBiophysicsArgan oilfood and beveragesBiologymedicine.disease_causeAscorbic acidApplied Microbiology and BiotechnologyYeastAntioxidant defensesLipid peroxidationchemistry.chemical_compoundOleic acidfoodchemistryBiochemistryOxidative damagemedicineCaffeic acidFood-grade argan oil antioxidant capacityOriginal ArticleOxidative stressAMB Express

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Candida zemplinina yeasts positively impact wine production: lower alcohol levels and higher glycerol contents

2012

Settore AGR/15 - Scienze E Tecnologie AlimentariCandida zemplinina wine yeasts mixed fermentation

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Non-canonical regulation of glutathione and trehalose biosynthesis characterizes non-Saccharomyces wine yeasts with poor performance in active dry ye…

2018

Several yeast species, belonging to Saccharomyces and non-Saccharomyces genera, play fundamental roles during spontaneous must grape fermentation, and recent studies have shown that mixed fermentations, co-inoculated with S. cerevisiae and non-Saccharomyces strains, can improve wine organoleptic properties. During active dry yeast (ADY) production, antioxidant systems play an essential role in yeast survival and vitality as both biomass propagation and dehydration cause cellular oxidative stress and negatively affect technological performance. Mechanisms for adaptation and resistance to desiccation have been described for S. cerevisiae, but no data are available on the physiology and oxidat…

0301 basic medicineAntioxidantEstrès oxidatiumedicine.medical_treatmentGlutathione reductasenon-Saccharomyces yeastsProtein oxidationBiochemistry Genetics and Molecular Biology (miscellaneous)MicrobiologyApplied Microbiology and BiotechnologySaccharomyces03 medical and health scienceschemistry.chemical_compoundFood-grade argan oilVirologyOxidative damageGeneticsmedicineFood sciencelcsh:QH301-705.5Molecular BiologyActive dry wine yeastsantioxidant defensebiologyfood and beveragesCell BiologyGlutathionebiology.organism_classificationTrehaloseYeast030104 developmental biologylcsh:Biology (General)chemistryViniculturaParasitologyFermentationAntioxidant defencesMicrobial Cell

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Differences in the glucose and fructose consumption profiles in diverse Saccharomyces wine species and their hybrids during grape juice fermentation

2009

7 pages, 4 figures, 5 tables.

WineHybridsSugars in wineFructoseMicrobiologySaccharomycesSaccharomyceschemistry.chemical_compoundSpecies SpecificitySugar consumptionFood scienceWinemakingWine yeastsWinebiologyTemperatureGenetic Variationfood and beveragesFructoseGeneral Medicinebiology.organism_classificationYeastKineticsYeast in winemakingGlucosechemistryBiochemistryFermentationFood MicrobiologyFermentationFood ScienceInternational Journal of Food Microbiology

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De novo production of six key grape aroma monoterpenes by a geraniol synthase-engineered S. cerevisiae wine strain

2015

[Background] Monoterpenes are important contributors to grape and wine aroma. Moreover, certain monoterpenes have been shown to display health benefits with antimicrobial, anti-inflammatory, anticancer or hypotensive properties amongst others. The aim of this study was to construct self-aromatizing wine yeasts to overproduce de novo these plant metabolites in wines.

GeraniolWine aromaMonoterpeneAroma of wineGeranyl acetateBioengineeringWineSaccharomyces cerevisiaeBiologyApplied Microbiology and Biotechnologychemistry.chemical_compoundLinaloolNerolVitisFood sciencePlant ProteinsWineCitronellolResearchfungidigestive oral and skin physiologyfood and beveragesPhosphoric Monoester HydrolasesRecombinant ProteinsMonoterpene bioconversionchemistryBiochemistryFermentationOdorantsOcimum basilicumMonoterpenesSelf-aromatizing wine yeastsGeraniol synthaseMetabolic engineeringGeraniolBiotechnology

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Aneuploidy and Ethanol Tolerance in Saccharomyces cerevisiae

2019

Response to environmental stresses is a key factor for microbial organism growth. One of the major stresses for yeasts in fermentative environments is ethanol. Saccharomyces cerevisiae is the most tolerant species in its genus, but intraspecific ethanol-tolerance variation exists. Although, much effort has been done in the last years to discover evolutionary paths to improve ethanol tolerance, this phenotype is still hardly understood. Here, we selected five strains with different ethanol tolerances, and used comparative genomics to determine the main factors that can explain these phenotypic differences. Surprisingly, the main genomic feature, shared only by the highest ethanol-tolerant st…

0301 basic medicineChromosome IIIlcsh:QH426-470Saccharomyces cerevisiaeAneuploidycomparative genomicsSaccharomyces cerevisiaeEthanol toleranceBiologyTranscriptome03 medical and health sciences0302 clinical medicineGeneticsmedicineaneuploidyGenetics (clinical)Wine yeastsGeneticsComparative genomicsComparative genomicsStrain (biology)chromosome IIIChromosomewine yeastsAneuploidybiology.organism_classificationmedicine.diseasePhenotypeethanol tolerancelcsh:Genetics030104 developmental biology030220 oncology & carcinogenesisMolecular MedicinePloidyFrontiers in Genetics

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Aneuploidy and Ethanol Tolerance in

2018

Geneticschromosome IIIwine yeastsSaccharomyces cerevisiaeaneuploidycomparative genomicsethanol toleranceOriginal ResearchFrontiers in genetics

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Molecular Characterization of a Chromosomal Rearrangement Involved in the Adaptive Evolution of Yeast Strains

2002

Wine yeast strains show a high level of chromosome length polymorphism. This polymorphism is mainly generated by illegitimate recombination mediated by Ty transposons or subtelomeric repeated sequences. We have found, however, that the SSU1-R allele, which confers sulfite resistance to yeast cells, is the product of a reciprocal translocation between chromosomes VIII and XVI due to unequal crossing-over mediated by microhomology between very short sequences on the 5' upstream regions of the SSU1 and ECM34 genes. We also show that this translocation is only present in wine yeast strains, suggesting that the use for millennia of sulfite as a preservative in wine production could have favored …

Genetic MarkersSaccharomyces cerevisiae ProteinsLetterChromosomal rearrangementsAnion Transport ProteinsGenes FungalMolecular Sequence DataSaccharomyces cerevisiaeSaccharomyces cerevisiaeChromosomal rearrangementSaccharomycesGenètica molecularTranslocation GeneticEvolution MolecularSaccharomycesGene FrequencySpecies SpecificityGeneticsVinificationDNA FungalGeneGenetics (clinical)Wine yeastsGene RearrangementRecombination GeneticGeneticsBase SequencebiologyGene rearrangementbiology.organism_classificationYeastYeast in winemakingChromosomes FungalGenome FungalPloidyGenome Research

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