Search results for "ethanol fermentation"

showing 10 items of 79 documents

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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Technological properties of Oenococcus oeni strains isolated from typical southern Italian wines.

2010

Aims:  To isolate indigenous Oenococcus oeni strains suitable as starters for malolactic fermentation (MLF), using a reliable polyphasic approach. Methods and Results: Oenococcus oeni strains were isolated from Nero di Troia wines undergoing spontaneous MLF. Samples were taken at the end of alcoholic fermentation and during MLF. Wine samples were diluted in a sterile physiological solution and plated on MRS and on modified FT80. Identification of O. oeni strains was performed by a polymerase chain reaction (PCR) experiment using strain-specific primers. Strains were further grouped using a multiplex RAPD-PCR analysis. Then, six strains were inoculated in two wine-like media with two differe…

OrganolepticMalatesmalic acidregional winesWineBiologyEthanol fermentationApplied Microbiology and BiotechnologyPolymerase Chain ReactionMicrobiologychemistry.chemical_compoundStarterStress PhysiologicalMalolactic fermentationSulfitesFood scienceLactic Acidmalolactic starterOenococcusOenococcus oeniWineEthanolLo18food and beveragesHydrogen-Ion Concentrationbiology.organism_classificationRandom Amplified Polymorphic DNA TechniquechemistryFermentationFermentationMalic acidOenococcus oeniLetters in applied microbiology
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Biodiversity and oenological attitude of Saccharomyces cerevisiae strains isolated in the Montalcino district: biodiversity of S. cerevisiae strains …

2020

ABSTRACT The biodiversity of Saccharomyces cerevisiae was studied in the Montalcino area (Italy). Two wineries were involved in the study, which compared the genotypic and oenological characteristics of the S. cerevisiae strains isolated in spontaneous fermentations. After isolation yeasts were identified by 26S rRNA gene sequence analysis, and S. cerevisiae strains were characterized through interdelta sequence analysis (ISA). Oenological tests were performed in synthetic grape must by varying the magnitude of the main wine-imiting factors. The evolution of alcoholic fermentation was monitored by measuring sugar consumption and flow cytometry. The results revealed the prevalence of S. cere…

PopulationSaccharomyces cerevisiaeWineSaccharomyces cerevisiaeBiologyEthanol fermentationMicrobiologySpecies SpecificityGeneticsFlow cytometryMontalcinoFood scienceeducationMolecular BiologyWineeducation.field_of_studywine biodiversity alcoholic fermentation flow cytometry wild yeast MontalcinoWine biodiversityBiodiversitybiology.organism_classificationWild yeastWineryYeastCell killingItalySettore AGR/16 - MICROBIOLOGIA AGRARIAFermentationAlcoholic fermentationFEMS microbiology letters
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Effects of yeast proteolytic activity on Oenococcus oeni and malolactic fermentation

2006

International audience; Alcoholic fermentation of synthetic must was performed using either Saccharomyces cerevisiae or a mutant Delta pep4, which is deleted for the proteinase A gene. Fermentation with the mutant Delta pep4 resulted in 61% lower levels of free amino acids, and in 62% lower peptide concentrations at the end of alcoholic fermentation than in the control. Qualitative differences in amino acid composition were observed. Changes observed in amino acids in peptides were mainly quantitative. After alcoholic fermentation each medium was inoculated with Oenococcus oeni. Malolactic fermentation in the medium with the Delta pep4 strain took 10 days longer than the control. This diffe…

Saccharomyces cerevisiae ProteinsNitrogenMalatesWineSaccharomyces cerevisiaeEthanol fermentationMicrobiology03 medical and health sciencesMalate DehydrogenaseProteinase APEP4EndopeptidasesGeneticsMalolactic fermentationLactic acid bacteriaNitrogen metabolismAmino AcidsMolecular Biology030304 developmental biologyOenococcus oenichemistry.chemical_classification0303 health sciencesbiology030306 microbiologyProteolytic enzymesfood and beveragesFree amino nitrogenbiology.organism_classificationYeastYeastAmino acidGram-Positive Cocci[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologychemistryBiochemistryFermentationPeptideFermentation
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Transcriptomic and Proteomic Approach for Understanding the Molecular Basis of Adaptation of Saccharomyces cerevisiae to Wine Fermentation

2006

ABSTRACT Throughout alcoholic fermentation, Saccharomyces cerevisiae cells have to cope with several stress conditions that could affect their growth and viability. In addition, the metabolic activity of yeast cells during this process leads to the production of secondary compounds that contribute to the organoleptic properties of the resulting wine. Commercial strains have been selected during the last decades for inoculation into the must to carry out the alcoholic fermentation on the basis of physiological traits, but little is known about the molecular basis of the fermentative behavior of these strains. In this work, we present the first transcriptomic and proteomic comparison between …

Saccharomyces cerevisiae ProteinsProteomeTranscription GeneticSaccharomyces cerevisiaeSulfur metabolismWineSaccharomyces cerevisiaeEthanol fermentationBiologyApplied Microbiology and BiotechnologyGene Expression Regulation FungalHeat shock proteinFermentation in winemakingWineEcologyGene Expression ProfilingPhysiology and Biotechnologybiology.organism_classificationAdaptation PhysiologicalYeastBiochemistryFermentationFermentationHeat-Shock ResponseFood ScienceBiotechnologyApplied and Environmental Microbiology
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Flor yeasts of Saccharomyces cerevisiae--their ecology, genetics and metabolism.

2013

Abstract The aging of certain white wines is dependent on the presence of yeast strains that develop a biofilm on the wine surface after the alcoholic fermentation. These strains belong to the genus Saccharomyces and are called flor yeasts. These strains possess distinctive characteristics compared with Saccharomyces cerevisiae fermenting strain. The most important one is their capacity to form a biofilm on the air–liquid interface of the wine. The major gene involved in this phenotype is FLO11, however other genes are also involved in velum formation by these yeast and will be detailed. Other striking features presented in this review are their aneuploidy, and their mitochondrial DNA polym…

Saccharomyces cerevisiae ProteinsSaccharomyces cerevisiaeFlorWineAcetaldehydeSaccharomyces cerevisiaeEthanol fermentationMicrobiologySaccharomycesDNA MitochondrialStress PhysiologicalGeneticsWineMembrane GlycoproteinsPolymorphism GeneticbiologyEthanolBiofilmfood and beveragesGeneral Medicinebiology.organism_classificationAneuploidyYeastPhenotypeFermentationFermentationFood ScienceInternational journal of food microbiology
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Analysis of the stress resistance of commercial wine yeast strains

2001

Alcoholic fermentation is an essential step in wine production that is usually conducted by yeasts belonging to the species Saccharomyces cerevisiae. The ability to carry out vinification is largely influenced by the response of yeast cells to the stress conditions that affect them during this process. In this work, we present a systematic analysis of the resistance of 14 commercial S. cerevisiae wine yeast strains to heat shock, ethanol, oxidative, osmotic and glucose starvation stresses. Significant differences were found between these yeast strains under certain severe conditions, Vitilevure Pris Mouse and Lalvin T73 being the most resistant strains, while Fermiblanc arom SM102 and UCLM …

Saccharomyces cerevisiae ProteinsSaccharomyces cerevisiaeWineEthanol fermentationBiologyBiochemistryMicrobiologyFungal ProteinsOsmotic PressureGene Expression Regulation FungalYeastsGene expressionGeneticsMolecular BiologyGeneHeat-Shock ProteinsWineEthanolStrain (chemistry)General Medicinebiology.organism_classificationYeastOxidative StressYeast in winemakingGlucoseBiochemistryFermentationHeat-Shock ResponseArchives of Microbiology
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Arginase activity is a useful marker of nitrogen limitation during alcoholic fermentations.

2003

Nitrogen deficiency in musts is one of the causes of sluggish or stuck fermentations. In this work we propose that arginase activity determination can be useful for detecting nitrogen starvation early in vinification. CAR1 and YGP1 genes are not specifically induced under conditions of nitrogen starvation. However, a significant increase in the enzymatic activity of arginase, the product of the CAR1 gene, is detected in vinifications carried out with musts containing limiting amounts of nitrogen. Moreover, on adding ammonia to a nitrogen-deficient vinification, even at late stages, this enzymatic activity is repressed, and growth rate is restored simultaneously. We also investigate the role…

Saccharomyces cerevisiae ProteinsTranscription GeneticNitrogenWineSaccharomyces cerevisiaeEthanol fermentationBiologyApplied Microbiology and BiotechnologyMicrobiologyFungal ProteinsAmmoniachemistry.chemical_compoundAmmoniaGene Expression Regulation FungalEthanol metabolismNitrogen cycleEcology Evolution Behavior and SystematicsGlycoproteinsEthanolArginaseEthanolNitrogen deficiencyMembrane ProteinsArginaseGlucoseBiochemistrychemistryFermentationFood MicrobiologyFermentationSystematic and applied microbiology
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A new PCR-based method for monitoring inoculated wine fermentations.

2003

A new PCR-based method has been developed to monitor inoculated wine fermentations. The method is based on the variation in the number and position of introns in the mitochondrial gene COX1. Oligonucleotide primers homologous to the regions flanking the Saccharomyces cerevisiae COX1 introns have been designed and tested for S. cerevisiae wine yeast strain differentiation. Four primers were selected for their subsequent use in a multiplex PCR reaction and have proved to be very effective in uncovering polymorphism in natural and commercial yeast strains. An important point is that the speed and simplicity of the technique, which does not require the isolation of DNA, allows early detection o…

Saccharomyces cerevisiaeWineSaccharomyces cerevisiaeEthanol fermentationMicrobiologyDNA MitochondrialPolymerase Chain Reactionlaw.inventionlawMultiplex polymerase chain reactionDNA FungalPolymerase chain reactionWinebiologyfood and beveragesGeneral Medicinebiology.organism_classificationYeastIntronsYeast in winemakingBiochemistryFermentationFood MicrobiologyFermentationPolymorphism Restriction Fragment LengthFood ScienceInternational journal of food microbiology
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Diversity of Saccharomyces cerevisiae strains associated to racemes of Grillo grape variety

2020

ABSTRACT The most important oenological characteristics of high-quality sparkling wines are high content of acidity and low pH. Racemes are late-maturing grapes of Grillo variety characterized by low pH and high content of tartaric and malic acids and, due to their intrinsic characteristics, might represent an interesting technological solution to increase acid quality of base sparkling wine. To this purpose, the use of yeasts able to ferment grape must at very low pH is mandatory for the success of the process. In this work, 261 Saccharomyces cerevisiae isolated from spontaneous vinifications of Grillo grape racemes were subject to intraspecific characterization by interdelta analysis whic…

Saccharomyces cerevisiaeYeast starterWineTotal populationSaccharomyces cerevisiaeEthanol fermentationMicrobiologyInterdeltaSparkling wineGeneticsRacemeVitisOenological selectionMolecular BiologyWinebiologyfungifood and beveragesBiodiversityHydrogen-Ion Concentrationbiology.organism_classificationYeastHorticultureRacemeFermentationFood MicrobiologyFermentationAlcoholic fermentation
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