Search results for "winemaking."

showing 10 items of 152 documents

The yeast Starmerella bacillaris (synonym Candida zemplinina) shows high genetic diversity in winemaking environments.

2015

International audience; The yeast Candida zemplinina (Starmerella bacillaris) is frequently isolated from grape and wine environments. Its enological use in mixed fermentation with Saccharomyces cerevisiae has been extensively investigated these last few years, and several interesting features including low ethanol production, fructophily, glycerol and other metabolites production, have been described. In addition, molecular tools allowing the characterization of yeast populations have been developed, both at the inter- and intraspecific levels. However, most of these fingerprinting methods are not compatible with population genetics or ecological studies. In this work, we developed 10 micr…

GlycerolStarmerella bacillaris microsatellite SSR oenology grape mustmicrosatelliteGenotypeGenotyping Techniques[SDV]Life Sciences [q-bio]Saccharomyces cerevisiaePopulation geneticsWineFructoseSaccharomyces cerevisiaestarmerella bacillarisApplied Microbiology and BiotechnologyMicrobiology[SDV.IDA]Life Sciences [q-bio]/Food engineeringBotanymust[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringVitisSelection GeneticDNA FungalWinemakingOenologyCandidaWineGenetic diversitybiologyBase SequenceEthanolGeographyGenetic VariationGeneral MedicineSequence Analysis DNAgrapebiology.organism_classificationSSRYeastCandida zemplininaFermentationoenologyGenome FungalMicrosatellite Repeats
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Interplay among Gcn5, Sch9 and mitochondria during chronological aging of wine yeast is dependent on growth conditions.

2015

Saccharomyces cerevisiae chronological life span (CLS) is determined by a wide variety of environmental and genetic factors. Nutrient limitation without malnutrition, i.e. dietary restriction, expands CLS through the control of nutrient signaling pathways, of which TOR/Sch9 has proven to be the most relevant, particularly under nitrogen deprivation. The use of prototrophic wine yeast allows a better understanding of the role of nitrogen in longevity in natural and more demanding environments, such as grape juice fermentation. We previously showed that acetyltransferase Gcn5, a member of the SAGA complex, has opposite effects on CLS under laboratory and winemaking conditions, and is detrimen…

GrapesSaccharomyces cerevisiae ProteinsNitrogenmedia_common.quotation_subjectSaccharomyces cerevisiaeLongevitylcsh:MedicineWineSaccharomyces cerevisiaeMitochondrionYeastsEndopeptidasesAutophagylcsh:ScienceWinemakingmedia_commonHistone AcetyltransferasesCell NucleusMultidisciplinarybiologyEthanollcsh:RLongevityIntracellular Signaling Peptides and ProteinsNutrientsbiology.organism_classificationYeastMitochondriaSAGA complexYeast in winemakingAutophagic cell deathPhenotypeBiochemistryFermentationFermentationlcsh:QProtein KinasesSignal TransductionTranscription FactorsResearch ArticlePLoS ONE
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Ecology and technological capability of lactic acid bacteria isolated during Grillo grape vinification in the Marsala production area

2011

Grapes of the “Grillo” variety, used to produce Marsala wine, were harvested from five vineyards with different climatic and agronomic parameters, in order to obtain a first mapping of lactic acid bacteria (LAB) inhabiting the production area. Marsala base wine production was followed at a large-scale, and also two experimental vinifications, with different lysozyme and SO2 concentrations and in combination, were carried out at pilot-plant scale. LAB communities and conventional chemical parameters were periodically analysed. LAB were found on grapes at an average concentration of about 102 CFU g−1 which decreased during the transformation process. A total of 146 colonies were collected, bu…

LysozymeSO2Applied Microbiology and BiotechnologyLactic acid bacteria; Grillo grapes; Marsala wine; Lysozyme; SO2chemistry.chemical_compoundMicrobial ecologyGrillo grapesBotanyLactic acid bacteriaLactic acid bacteria Grillo grapes Marsala wine Lysozyme SO2Food scienceGrillo grapeMarsala wineWinemakingWinebiologyLactococcus lactisfood and beveragesbiology.organism_classificationLactic acidchemistrybacteriaLysozymeBacteriaSettore AGR/16 - Microbiologia AgrariaEnterococcus faeciumAnnals of Microbiology
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Chemical messages in 170-year-old champagne bottles from the Baltic Sea: Revealing tastes from the past

2015

International audience; Archaeochemistry as the application of the most recent analytical techniques to ancient samples now provides an unprecedented understanding of human culture throughout history. In this paper, we report on a multiplatform analytical investigation of 170-y-old champagne bottles found in a shipwreck at the bottom of the Baltic Sea, which provides insight into winemaking practices used at the time. Organic spectroscopy-based nontargeted metabolomics and metallomics give access to the detailed composition of these wines, revealing, for instance, unexpected chemical characteristics in terms of small ion, sugar, and acid contents as well as markers of barrel aging and Maill…

Magnetic Resonance SpectroscopyArchaeochemistryMass Spectrometryddc:630Furaldehyde[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology14. Life underwaterwine[SDV.MHEP.OS]Life Sciences [q-bio]/Human health and pathology/Sensory OrgansWinemakingMultidisciplinaryChemistryChromatography liquidCarbon DioxidemetabolomicsArchaeologyMaillard Reactionddc:Archaeochemistry ; Champagne ; Metabolomics ; WineArchaeologyBaltic seaSpectrophotometryHuman cultureTasteEnvironmental chemistryPhysical SciencesChampagneWine tasting[SDV.AEN]Life Sciences [q-bio]/Food and NutritionChromatography LiquidProceedings of the National Academy of Sciences
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Metabolomic by 1H NMR Spectroscopy Differentiates “Fiano Di Avellino” White Wines Obtained with Different Yeast Strains

2013

We employed (1)H NMR spectroscopy to examine the molecular profile of a white "Fiano di Avellino" wine obtained through fermentation by either a commercial or a selected autochthonous Saccharomyces cerevisiae yeast starter. The latter was isolated from the same grape variety used in the wine-making process in order to strengthen the relationship between wine molecular quality and its geographical origin. (1)H NMR spectra, where water and ethanol signals were suppressed by a presaturated T1-edited NMR pulse sequence, allowed for definition of the metabolic content of the two differently treated wines. Elaboration of NMR spectral data by multivariate statistical analyses showed that the two d…

Magnetic Resonance SpectroscopySettore AGR/13 - Chimica AgrariaWineBiologyMetabolomicsYeastsMetabolomicsVitisFood scienceWinemakingWineEthanoldigestive oral and skin physiologyfood and beveragesPulse sequenceGeneral ChemistryNuclear magnetic resonance spectroscopyYeastBiochemistryFermentationProton NMRFermentationnuclear magnetic resonance T1-filtered spectra autochthonous yeast starter “Fiano di Avellino” white wine metabolomic chemometric techniquesGeneral Agricultural and Biological SciencesSettore AGR/16 - Microbiologia AgrariaJournal of Agricultural and Food Chemistry
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Toxicological Assessment of Recombinant Xylanase X22 in Wine

1999

Toxicological evaluation of xylanase X(22) from Aspergillus nidulans expressed in a wine yeast strain was carried out. The safety of the X(22) intake was assessed by digestibility, bioinformatic, and mouse short-term repeated dosing studies, although X(22) shows resistance to proteolytic degradation in the gastrointestinal system, is a minority protein component (<0.5 10(-)(6) %) of the produced wine, and shows no significant amino acid sequence homology to any known food allergens. The 4-week oral toxicity study was performed in Swiss mice at a dose level of 0.01, 0.1, or 1 mg/kg/day (these dosages correlate to 8, 80, and 800 times, respectively, the enzyme amount contained in 250 mL of wi…

MaleDoseUrinalysisWineBiologyAspergillus nidulansMicrobiologyMiceOral administrationmedicineAnimalsFood scienceWineGastric JuiceDose-Response Relationship Drugmedicine.diagnostic_testGeneral ChemistryAllergensRecombinant ProteinsYeastYeast in winemakingXylosidasesXylanaseDigestionFemaleGeneral Agricultural and Biological SciencesDigestionFood HypersensitivityJournal of Agricultural and Food Chemistry
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Wine Yeast Terroir: Separating the Wheat from the Chaff-for an Open Debate.

2020

Wine terroir is characterized by a specific taste and style influenced by the cultivar of the fermented grapes, geographical factors such as the vineyard, mesoclimate, topoclimate, and microclimate, soil geology and pedology, and the agronomic approach used. These characteristics together define the concept of “terroir”. Thus, regional distinctive flavors in wine have been the subject of many studies aimed at better understanding the link between the wine and the vineyard. Indeed, the identification of key environmental elements involved in the regional variation of grape and wine quality characteristics is a critical feature for improving wine production in terms of consumer preference and…

Microbiology (medical)Opiniongrape vineyeastMicrobiologyVineyard03 medical and health sciencesalcoholic fermentationVirologyPedologyQuality characteristicslcsh:QH301-705.5030304 developmental biologyTerroiryeast biodiversityWine0303 health sciences030306 microbiologybusiness.industryterroirEnvironmental resource managementmicrobial terroirExperimental researchYeast in winemakinglcsh:Biology (General)Identification (biology)next-generation sequencingbusinessMicroorganisms
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Wine yeast peroxiredoxin TSA1 plays a role in growth, stress response and trehalose metabolism in biomass propagation

2020

This article belongs to the Special Issue Wine Yeast 1.0.

Microbiology (medical)Protein moonlightingperoxiredoxinsThioredoxin reductaseSaccharomyces cerevisiaeMutantWineSaccharomyces cerevisiaeMicrobiology<i>Saccharomyces cerevisiae</i>03 medical and health scienceschemistry.chemical_compoundVirologyoxidative stressBiomasswinelcsh:QH301-705.5030304 developmental biologychemistry.chemical_classification0303 health sciencesTsa1biologybiomass030306 microbiologyChemistryPeroxiredoxinsbiology.organism_classificationTrehaloseYeast in winemakingEnzymeBiochemistrylcsh:Biology (General)Oxidative stressPeroxiredoxinMicroorganisms
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Differential Gene Expression and Allele Frequency Changes Favour Adaptation of a Heterogeneous Yeast Population to Nitrogen-Limited Fermentations

2020

Alcoholic fermentation is fundamentally an adaptation process, in which the yeast Saccharomyces cerevisiae outperforms its competitors and takes over the fermentation process itself. Although wine yeast strains appear to be adapted to the stressful conditions of alcoholic fermentation, nitrogen limitations in grape must cause stuck or slow fermentations, generating significant economic losses for the wine industry. One way to discover the genetic bases that promote yeast adaptation to nitrogen-deficient environments are selection experiments, where a yeast population undergoes selection under conditions of nitrogen restriction for a number of generations, to then identify by sequencing the …

Microbiology (medical)Saccharomyces cerevisiaePopulationlcsh:QR1-502Saccharomyces cerevisiaeEthanol fermentationMicrobiologylcsh:Microbiology03 medical and health sciencesheterogeneous yeast populationeducationAllele frequency030304 developmental biologyOriginal ResearchGeneticsFermentation in winemaking0303 health scienceseducation.field_of_studybiology030306 microbiologyfood and beveragesbiology.organism_classificationfermentation processYeastYeast in winemakingselection experimentsFermentationnitrogen consumptionFrontiers in Microbiology
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Increase of sulfite tolerance in Oenococcus oeni by means of acidic adaptation

1998

International audience; Sulfite is an antimicrobial agent used at the beginning of winemaking to avoid development of undesirable microorganisms. However, Oenococcus oeni, which is mainly responsible for the malolactic fermentation, has to grow in wine and therefore has to be resistant to sulfite. This study showed that acid-adapted cells of O. oeni survived better than non-adapted cells in the presence of a high sulfite concentration (30 mg l-1). Addition of a sub-lethal concentration of sulfite (15 mg l31) during the adaptation step in acidic medium increases the sulfite tolerance. Moreover, sulfite appeared to be able to induce a heat shocklike response. Our results suggest that pH homeo…

Microorganism[SDV]Life Sciences [q-bio]Microbiology03 medical and health scienceschemistry.chemical_compoundSulfite[SDV.IDA]Life Sciences [q-bio]/Food engineeringGeneticsMalolactic fermentation[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringMolecular Biology030304 developmental biologyWinemakingOenococcus oeniWine0303 health sciencesbiologyHeat shock protein030306 microbiologyChemistryMalolactic fermentationbiology.organism_classificationAntimicrobialBiochemistrySulfite toleranceOenococcus oeniBacteria
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