Search results for "Candida zemplinina"

showing 10 items of 12 documents

FT-IR spectroscopy : A powerful tool for studying the inter- and intraspecific biodiversity of cultivable non-Saccharomyces yeasts isolated from grap…

2016

International audience; The efficiency of the FT-IR technique for studying the inter- and intra biodiversity of cultivable non-Saccharomyces yeasts (NS) present in different must samples was examined. In first, the capacity of the technique FF-IR to study the global diversity of a given sample was compared to the pyrosequencing method, used as a reference technique. Seven different genera (Aureobasidium, Candida, Cryptococcus, Hanseniaspora, Issatchenkia, Metschnikowia and Pichia) were identified by FT-IR and also by pyrosequencing. Thirty-eight other genera were identified by pyrosequencing, but together they represented less than 6% of the average total population of 6 musts. Among the sp…

0301 basic medicineIdentification[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionBiodiversityWineHanseniasporaSaccharomycesMicrobial ecology[ SDV.MP ] Life Sciences [q-bio]/Microbiology and ParasitologyYeastsSpectroscopy Fourier Transform InfraredVitisDNA FungalMycological Typing TechniquesPhylogenyCandidaIntragenomic variationbiologySp-nov.Pyrolysis mass-spectrometryPyrosequencingBiodiversityCandida zemplininaYeast in winemaking[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologyFT-IR spectroscopyMetschnikowiaAlcoholic fermentationMicrobiology (medical)food.ingredientWine yeast030106 microbiologyMicrobiologyIntraspecific competitionCandida-zemplininaSaccharomyces03 medical and health sciencesfoodBotanyRNA Ribosomal 18SMolecular BiologyBase SequenceComputational BiologySequence Analysis DNAbiology.organism_classificationGreen lacewingsStrain typingPyrosequencingTransform-infrared-spectroscopy[SDV.AEN]Life Sciences [q-bio]/Food and NutritionBotrytis-affected wine
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Persistence of Two Non-Saccharomyces Yeasts (Hanseniaspora and Starmerella) in the Cellar

2016

International audience; Different genera and/or species of yeasts present on grape berries, in musts and wines are widely described. Nevertheless, the community of non-Saccharomyces yeasts present in the cellar is still given little attention. Thus it is not known if the cellar is a real ecological niche for these yeasts or if it is merely a transient habitat for populations brought in by grape berries during the winemaking period. This study focused on three species of non-Saccharomyces yeasts commonly encountered during vinification: Starmerella bacillaris (synonymy with Candida zemplinina), Hanseniaspora guilliermondii and Hanseniaspora uvarum. More than 1200 isolates were identified at …

0301 basic medicineMicrobiology (medical)Grape berriesCerevisiaeWine yeast[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutrition030106 microbiologyStarmerellalcsh:QR1-502StrainsCandida-stellataHanseniasporaMicrobiologySaccharomyceslcsh:MicrobiologyHanseniaspora03 medical and health sciences[ SDV.MP ] Life Sciences [q-bio]/Microbiology and ParasitologycellarBotanyOriginal ResearchWinemakingDiversitybiologyfungifood and beveragespersistenceEnological propertiesbiology.organism_classificationSulfur-dioxideYeastCandida zemplininaYeast in winemaking[SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitologynon-Saccharomyces strainsStarmerellaHanseniaspora guilliermondiiAlcoholic fermentationPopulation-dynamicsFrontiers in Microbiology
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Candida zemplinina for Production of Wines with Less Alcohol and More Glycerol

2016

We developed a new protocol for winery mixed fermentations, using the selected Candida zemplinina yeast strain Cz3. The results of a two-year study, in which red musts (Merlot in 2010; Merlot, Nero d’Avola and Frappato in 2011) were inoculated with Cz3, is discussed. These wines were compared with wines obtained by inoculation with commercial Saccharomyces cerevisiae yeast strains (NDA21 and AR06 in 2010; NDA21 in 2011), or with those obtained by spontaneous fermentation (only in 2011). The inoculation of Cz3 always resulted in a two-phase fermentation: the first phase was driven by the C. zemplinina strain, while the second was dominated by the indigenous S. cerevisiae yeasts coming from t…

0301 basic medicinebiologyInoculationSaccharomyces cerevisiaefood and beveragesAlcoholSettore AGR/15 - Scienze E Tecnologie Alimentaribiology.organism_classificationSaccharomyces cerevisiae non-Saccharomyces Candida zemplinina mixed fermentations Cz3 spontaneous fermentationsYeastWineryCandida zemplinina03 medical and health scienceschemistry.chemical_compound030104 developmental biologychemistryGlycerolFermentationFood scienceSouth African Journal of Enology and Viticulture
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Uso in cantina del ceppo selezionato di Candida zemplinina CZ3 per ridurre il tenore alcolico e aumentare il contenuto di glicerolo dei vini

2014

Candida zemplinina Cz3 alcolico glicerolo Vino Merlot Nero d’Avola FrappatoSettore AGR/15 - Scienze E Tecnologie Alimentarivini Candida zemplinina glicerolo
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Impiego enologico di due nuovi ceppi di lievito Candida zemplinina per il miglioramento qualitativo dei vini rossi.

2014

Candida zemplinina vino rosso MerlotSettore AGR/15 - Scienze E Tecnologie Alimentari
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Beneficial effects of Candida zemplinina in wine fermentation: lower alcohol level and higher glycerol content

2012

Candida zemplinina wine fermentation alcohol glycerolSettore AGR/15 - Scienze E Tecnologie Alimentari
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Use of Candida zemplinina to improve wine quality: lowering alcohol level and enhancing glycerol content

2012

Candida zemplinina wine quality alcohol glycerolSettore AGR/15 - Scienze E Tecnologie Alimentari
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GC-MS as a tool to study the aromatic profiles of Candida zemplinina/ Saccharomyces cerevisiae mixed fermentation wines

2013

GC-MS aromatic profiles wines Candida zemplinina Saccharomyces cerevisiae mixed fermentationSettore AGR/15 - Scienze E Tecnologie Alimentari
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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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Yeast–yeast interactions revealed by aromatic profile analysis of Sauvignon Blanc wine fermented by single or co-culture of non-Saccharomyces and Sac…

2012

International audience; There has been increasing interest in the use of selected non-Saccharomyces yeasts in co-culture with Saccharomyces cerevisiae. The main reason is that the multistarter fermentation process is thought to simulate indigenous fermentation, thus increasing wine aroma complexity while avoiding the risks linked to natural fermentation. However, multistarter fermentation is characterised by complex and largely unknown interactions between yeasts. Consequently the resulting wine quality is rather unpredictable. In order to better understand the interactions that take place between non-Saccharomyces and Saccharomyces yeasts during alcoholic fermentation, we analysed the vola…

MESH : Coculture TechniquesWine aroma[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionWineEthanol fermentation7. Clean energySaccharomycesMESH : SaccharomycesMESH : MetschnikowiaMESH : Volatile Organic CompoundsFood scienceVolatile thiolsCandida0303 health sciencesbiologyfood and beveragesMetschnikowia pulcherrimaCandida zemplininaMESH : WineNon-SaccharomycesAroma of wineTorulaspora delbrueckiiMetschnikowiaMicrobiologyMESH: FermentationMESH: Volatile Organic CompoundsMESH: Coculture TechniquesSaccharomyces03 medical and health sciencesTorulaspora delbrueckiiMESH: CandidaMESH : FermentationBotany030304 developmental biologyWineVolatile Organic CompoundsMESH: SaccharomycesMESH: Metschnikowia030306 microbiologyCandida zemplinina15. Life on landbiology.organism_classificationCoculture TechniquesMESH: WineYeastYeast interactionsFermentation[SDV.AEN]Life Sciences [q-bio]/Food and NutritionMESH : CandidaMetschnikowia pulcherrimaFood ScienceFood Microbiology
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