Search results for " wine."

showing 10 items of 331 documents

DETERMINATION OF THE OPTIMAL MOMENT OF HARVESTING FOR CABERNET SAUVIGNON AND MERLOT GRAPES IN DRĂGĂŞANI VINEYARD

2011

This paper presents an analysis of the main characteristics of black grapes during ripening and determining the optimum moment to harvest the grapes in the vineyard Drăgăşani. Monitoring process of maturation of the grapes has been done on the varieties of grapes for red wines Cabernet Sauvignon and Merlot from Drăgăşani vineyard.

Merlotblack grapesCabernet Sauvignonlcsh:TP1-1185red winelcsh:Chemical technologyDrăgăşaniScientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
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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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Mitochondria inheritance is a key factor for tolerance to dehydration in wine yeast production

2015

UNLABELLED Mitochondria are the cell's powerhouse when organisms are grown in the presence of oxygen. They are also the source of reactive oxygen species that cause damage to the biochemical components of the cell and lead to cellular ageing and death. Under winemaking conditions, Saccharomyces yeasts exclusively have a fermentative metabolism due to the high sugar content of grape must. However, their production as an active dry yeast (ADY) form required aerobic propagation and a dehydration process. In these industrial steps, oxidative stress is particularly harmful for the cell. In this work, we analysed the impact of the mitochondrial genome on oxidative stress response, longevity and d…

Mitochondrial DNASaccharomyces cerevisiaeSaccharomyces cerevisiaeMitochondrionyeastmedicine.disease_causeApplied Microbiology and BiotechnologySaccharomyces03 medical and health sciences[SDV.IDA]Life Sciences [q-bio]/Food engineeringmedicineoxidative stressVitis[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringDesiccationwine030304 developmental biology2. Zero hunger0303 health sciencesMitochondrial DNA inheritancebiology030306 microbiologydehydrationbiology.organism_classificationYeastmitochondriaYeast in winemakingBiochemistryFermentationReactive Oxygen SpeciesOxidative stresslifespan
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Mitotic Recombination and Genetic Changes in Saccharomyces cerevisiae during Wine Fermentation

2000

Natural strains of Saccharomyces cerevisiae are prototrophic homothallic yeasts that sporulate poorly, are often heterozygous, and may be aneuploid. This genomic constitution may confer selective advantages in some environments. Different mechanisms of recombination, such as meiosis or mitotic rearrangement of chromosomes, have been proposed for wine strains. We studied the stability of the URA3 locus of a URA3/ura3 wine yeast in consecutive grape must fermentations. ura3/ura3 homozygotes were detected at a rate of 1 x 10(-5) to 3 x 10(-5) per generation, and mitotic rearrangements for chromosomes VIII and XII appeared after 30 mitotic divisions. We used the karyotype as a meiotic marker an…

Mitotic crossoverSaccharomyces cerevisiaeMitosisGenetics and Molecular BiologyWineSaccharomyces cerevisiaeApplied Microbiology and BiotechnologyGenetic recombinationFungal ProteinsMeiosisFermentacióDNA FungalMitosisGeneticsFermentation in winemakingRecombination GeneticEcologybiologyHomozygotefood and beveragesvinificationSpores Fungalbiology.organism_classificationElectrophoresis Gel Pulsed-FieldYeast in winemakingMeiosiswine fermentationKaryotypingFermentationMitotic recombinationChromosomes FungalHomologous recombinationFood ScienceBiotechnology
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Elemental geochemistry of soils from the volcanic island of Pantelleria, Sicily: implications for Moscato wine production.

2006

The volcanic island of Pantelleria produces a naturally sweet wine Moscato di Pantelleria DOC obtained from the «Moscato d'Alessandria» (or «Zibibbo»), a grape favoured by hot climate. Geochemical and mineralogical investigations performed on soil profiles devoloped on rocks representative of the major outcropping lithologies (pantellerite, trachyte and alkalic basalt) show that the soils have preserved the parent material imprint. Consistently, values of the chemical index of alteration (CIA) indicate a low to moderate weathering degree for the rocks exposed in the Pantelleria area and consequently a low to moderate soil evolution. Soil-solution chemical analyses highlight that macro- and …

Moscato di Pantelleroa DOC wine Grape ripening Volcanic soils Chemical weathering Sicily
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Le “plaisir sucré” de la duchesse : un point sur la production du « galant de Madame » à la fin du Moyen Âge. https://preo.u-bourgogne.fr/crescentis/…

2021

Among the range of products elaborated in the Dukes of Burgundy vineyards at the end of the Middle Ages, the galant is first quoted in 1383. This paper strives to shed new light upon the sources in which the galant appears, i.e. the accountability documentation of the Dukes’ vineyards. Our research focuses on two demesnes located near Dijon: Talant and Chenôve.The study of this rare product (2-4% of total production), which was certainly flavored with gentian, shows that the notion of fortified wine should be reconsidered for the 14th and 15th centuries. The galant was obtained only by heating white grape must in a cauldron, searching to reach a diminution of one- or two-thirds of the basic…

Moyen Âgefortified winemedicine[SHS.GEO] Humanities and Social Sciences/Geographyfemme[SDV.SA.AEP] Life Sciences [q-bio]/Agricultural sciences/Agriculture economy and politics[SDV.SA.AEP]Life Sciences [q-bio]/Agricultural sciences/Agriculture economy and politics[SHS.GEO]Humanities and Social Sciences/Geography[SHS.GENRE] Humanities and Social Sciences/Gender studiessherry[SDV.AEN] Life Sciences [q-bio]/Food and Nutritionfemale[SHS.HIST] Humanities and Social Sciences/HistoryBourgogneMiddle Agesvin cuit[SHS.HIST]Humanities and Social Sciences/History[SHS.GENRE]Humanities and Social Sciences/Gender studiesmédecine[SDV.AEN]Life Sciences [q-bio]/Food and NutritionBurgundygalant
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PRELIMINARY STUDY OF “NERO D'AVOLA” CULTIVAR FROM MUST TO WINE BY SPME-GC/MS ANALYSIS

2013

NERO D'AVOLA WINESettore CHIM/10 - Chimica Degli AlimentiSPME-GC/MS ANALYSIS
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Two-carbon metabolites, polyphenols and vitamins influence yeast chronological life span in winemaking conditions

2012

Abstract Background Viability in a non dividing state is referred to as chronological life span (CLS). Most grape juice fermentation happens when Saccharomyces cerevisiae yeast cells have stopped dividing; therefore, CLS is an important factor toward winemaking success. Results We have studied both the physical and chemical determinants influencing yeast CLS. Low pH and heat shorten the maximum wine yeast life span, while hyperosmotic shock extends it. Ethanol plays an important negative role in aging under winemaking conditions, but additional metabolites produced by fermentative metabolism, such as acetaldehyde and acetate, have also a strong impact on longevity. Grape polyphenols quercet…

NiacinamideAgingSaccharomyces cerevisiaelcsh:QR1-502BioengineeringWineAcetaldehydeSaccharomyces cerevisiaeBiologyApplied Microbiology and BiotechnologyNiacinlcsh:Microbiologychemistry.chemical_compoundEthanol metabolismNicotinamideWinemakingFermentation in winemakingMicrobial ViabilityEthanolResearchAcetaldehydefood and beveragesPolyphenolsVitaminsAldehyde DehydrogenaseHydrogen-Ion Concentrationbiology.organism_classificationYeastYeastCarbonYeast in winemakingchemistryBiochemistryResveratrolFermentationFermentationBiotechnologyMicrobial Cell Factories
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