Search results for "Saccharomyces cerevisiae Protein"

showing 10 items of 231 documents

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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A Gene-Specific Requirement for FACT during Transcription Is Related to the Chromatin Organization of the Transcribed Region

2006

The FACT complex stimulates transcription elongation on nucleosomal templates. In vivo experiments also involve FACT in the reassembly of nucleosomes traversed by RNA polymerase II. Since several features of chromatin organization vary throughout the genome, we wondered whether FACT is equally required for all genes. We show in this study that the in vivo depletion of Spt16, one of the subunits of Saccharomyces cerevisiae FACT, strongly affects transcription of three genes, GAL1, PHO5, and Kluyveromyces lactis LAC4, which exhibit positioned nucleosomes at their transcribed regions. In contrast, showing a random nucleosome structure, YAT1 and Escherichia coli lacZ are only mildly influenced …

GeneticsChromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsTranscription GeneticbiologyHigh Mobility Group ProteinsRNA polymerase IIPromoterArticlesSaccharomyces cerevisiaeCell BiologyFACT complexChromatinChromatin remodelingChromatinDNA-Binding ProteinsHistone methylationProtein FACTEscherichia colibiology.proteinTranscriptional Elongation FactorsTranscription factor II DMolecular BiologyRNA polymerase II holoenzymePlasmidsMolecular and Cellular Biology
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The Sas3p and Gcn5p histone acetyltransferases are recruited to similar genes.

2006

A macroarray platform was used to identify binding sites of yeast histone acetyltransferase catalytic subunits and to correlate their positions with acetylation of lysine 14 of histone H3, revealing that Sas3p and Gcn5p are recruited to similar sets of intensely transcribed genes.

GeneticsHistone AcetyltransferasesChromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsResearchAcetylationHistone acetyltransferaseSaccharomyces cerevisiaeSAP30BiologyCell biologyHistonesHistone H3GenòmicaHistone H1Histone methyltransferaseGene Expression Regulation FungalHistone H2Abiology.proteinHistone codeHistone Acetyltransferases
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Construction of a Trp commercial baker?s yeast strain by using food-safe-grade dominant drug resistance cassettes

2003

We have designed a food-safe-grade module for gene disruptions in commercial baker's yeast strains, which contains the G418 resistance cassette, KanMX4, flanked by direct repeats from the MEL1 gene of Saccharomyces cerevisiae. This module was used to obtain a Trp(-) auxotrophic mutant of the polyploid HY strain by successive targeting to the TRP1 locus and later in vivo excision of the kan(r) marker. Southern blot analysis indicated that HY contains five copies of the TRP1 gene. However, after four disruption rounds, a strain named HYtrpM(4), unable to grow in the absence of tryptophan, was selected. Southern and Northern analysis of HYtrpM(4) cells showed that a remaining functional wild-t…

GeneticsSaccharomyces cerevisiae ProteinsIsomerase activitybiologyGenes FungalSaccharomyces cerevisiaeDrug Resistance MicrobialSaccharomyces cerevisiaeGeneral Medicinebiology.organism_classificationApplied Microbiology and BiotechnologyMicrobiologyMolecular biologyYeastFungal ProteinsTransformation GeneticPlasmidFood TechnologyDirect repeatGene conversionGeneAldose-Ketose IsomerasesBiotechnologyPlasmidsSouthern blotFEMS Yeast Research
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Genomic response programs of Saccharomyces cerevisiae following protoplasting and regeneration.

2007

Abstract Global transcription profiling during regeneration of Saccharomyces cerevisiae protoplasts was explored. DNA microarrays measured the expression of 6388 genes and wall removal resulted initially in over-expression of 861 genes that decayed later on, a behaviour expected from a transient stress response. Kinetics of expression divided the genes into 25 clusters. Transcription of the genes from clusters 14–25 was initially up-regulated, suggesting that the grouped genes permitted cell adaptation to the removal of the wall. Clustering of genes involved in “wall structure and biosynthesis” showed that most of them had initially low levels of expression that increased along the process.…

GeneticsSaccharomyces cerevisiae ProteinsbiologyReverse Transcriptase Polymerase Chain ReactionGene Expression ProfilingProtoplastsSaccharomyces cerevisiaeGenomicsSaccharomyces cerevisiaeProtoplastbiology.organism_classificationMicrobiologyCell biologyGene expression profilingTranscription (biology)Cell WallGene Expression Regulation FungalGene expressionGeneticsDNA microarrayCandida albicansGeneOligonucleotide Array Sequence AnalysisFungal genetics and biology : FGB
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Genetic manipulation of HSP26 and YHR087W stress genes may improve fermentative behaviour in wine yeasts under vinification conditions

2008

Throughout wine production yeast cells are affected by a plethora of stress conditions that compromise their ability to carry out the whole process. In recent years important knowledge about the mechanisms involved in stress response in both laboratory and wine yeast strains has been obtained. Several studies have indicated that a correlation exists between stress resistance, expression of stress response genes and fermentative behaviour. In this work we introduce several genetic manipulations in two genes induced by several stress conditions: HSP26 (which encodes a heat shock protein) and YHR087W (encoding a protein of unknown function) in two different wine yeasts, ICV16 and ICV27. These …

GeneticsWineSaccharomyces cerevisiae ProteinsTime FactorsSPI1CentromereRNA-Binding ProteinsWineSaccharomyces cerevisiaeGeneral MedicineBiologyMicrobiologyYeastYeast in winemakingPlasmidYeastsHeat shock proteinFermentationGene expressionPromoter Regions GeneticGeneHeat-Shock ProteinsPlasmidsFood ScienceInternational Journal of Food Microbiology
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Checkpoint adaptation in recombination-deficient cells drives aneuploidy and resistance to genotoxic agents.

2020

Abstract Human cancers frequently harbour mutations in DNA repair genes, rendering the use of DNA damaging agents as an effective therapeutic intervention. As therapy-resistant cells often arise, it is important to better understand the molecular pathways that drive resistance in order to facilitate the eventual targeting of such processes. We employ recombination-defective diploid yeast as a model to demonstrate that, in response to genotoxic challenges, nearly all cells eventually undergo checkpoint adaptation, resulting in the generation of aneuploid cells with whole chromosome losses that have acquired resistance to the initial genotoxic challenge. We demonstrate that adaptation inhibit…

Genome instabilitySaccharomyces cerevisiae ProteinsDNA RepairDNA repairAneuploidySaccharomyces cerevisiaeBiologyBiochemistryGenomic Instabilitychemistry.chemical_compoundGene Knockout TechniquesDrug Resistance FungalmedicineCytotoxicityMolecular BiologyRecombination GeneticSirolimusCell BiologyCell Cycle Checkpointsmedicine.diseaseAneuploidyPhenotypeDiploidyCell biologyRad52 DNA Repair and Recombination ProteinchemistryAdaptationPloidyDNADNA repair
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The Role of Ancestral Duplicated Genes in Adaptation to Growth on Lactate, a Non-Fermentable Carbon Source for the Yeast Saccharomyces cerevisiae

2021

This article belongs to the Section Molecular Informatics.

GenomeInformationSystems_GENERALGene DuplicationGene Expression Regulation FungalGene duplicationComputingMilieux_COMPUTERSANDEDUCATIONPhenotypic responseRNA-SeqBiology (General)SpectroscopyGeneticsbiologyGene Expression Regulation DevelopmentalGeneral MedicineAdaptation PhysiologicalComputer Science ApplicationsChemistryMetabolic distanceWhole-genome duplicatesGenome FungalGlycolysisSmall-scale duplicatesSaccharomyces cerevisiae Proteinsphenotypic responseGeneralLiterature_INTRODUCTORYANDSURVEYQH301-705.5Saccharomyces cerevisiaesmall-scale duplicatesSaccharomyces cerevisiaeGeneralLiterature_MISCELLANEOUSArticleCatalysisEvolution MolecularInorganic ChemistryLactic AcidPhysical and Theoretical ChemistryQD1-999Molecular Biologymetabolic distanceAcidic stressacidic stressheat-shock proteinsGene Expression Profilingwhole-genome duplicatesOrganic ChemistryRobustness (evolution)biology.organism_classificationCarbonReactive oxygen responseYeastEvolvabilityGene OntologyHeat-shock proteinsAdaptationreactive oxygen responseFunctional divergenceInternational Journal of Molecular Sciences
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The yeast osmosensitive mutant fps1Δ transformed by the cauliflower BobTIP1;1 aquaporin withstand a hypo-osmotic shock

2005

AbstractOsmoregulation plays an important role in cellular responses to osmotic stress in plants and in yeast. Aquaporins contribute to osmotic adjustment by facilitating transport of water or solutes across membranes. The tonoplastic water channel BobTIP1;1 (original name BobTIP26-1) genes are upregulated during dessication stress in cauliflower meristematic tissue. To investigate the physiological importance of BobTIP1;1, we expressed it in a Saccharomyces cerevisiae osmosensitive mutant fps1Δ. We showed that the defect in the yeast glycerol plasma membrane transporter is complemented by a plant cDNA encoding the aquaporin BobTIP1;1 which is localized in the vacuolar membrane of the compl…

GlycerolOsmotic stressOsmosisDNA ComplementarySaccharomyces cerevisiae ProteinsTime FactorsOsmotic shockSaccharomyces cerevisiaeMutantBlotting WesternGenes FungalBiophysicsAquaporinBrassicaSaccharomyces cerevisiaeOsmosisAquaporinsGenes PlantBiochemistryPolymerase Chain ReactionStructural BiologyGeneticsCloning MolecularFluorescent Antibody Technique Indirectγ-TIPMolecular BiologyPlant ProteinsbiologyAquaporinCell MembraneGenetic Complementation TestMembrane ProteinsWaterVacuolar membraneCell BiologyIntracellular Membranesbiology.organism_classificationYeastHypo-osmotic shockKineticsMembranePhenotypeBiochemistryGene Expression RegulationMutationVacuolesOsmoregulationElectrophoresis Polyacrylamide GelFEBS Letters
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Msb2 is a Ste11 membrane concentrator required for full activation of the HOG pathway.

2015

The high osmolarity glycerol (HOG) pathway, composed of membrane-associated osmosensors, adaptor proteins and core signaling kinases, is essential for the survival of yeast cells under hyper-osmotic stress. Here, we studied how the MAPKKK Ste11 might change its protein interaction profile during acute stress exposure, with an emphasis on the sensory system of the so-called Sho1/Msb2 signaling branch. To characterize the transience of protein-protein interactions we utilized a recently described enzymatic in vivo protein proximity assay (M-track). Accordingly, interaction signals between Ste11 and many of its signaling partners can already be detected even under basal conditions. In most cas…

GlycerolSaccharomyces cerevisiae ProteinsOsmotic shockBiophysicsSaccharomyces cerevisiaeBiologyBiochemistryStructural BiologyOsmotic PressureNegative feedbackGeneticsProtein Interaction MapsMolecular Biologychemistry.chemical_classificationFeedback PhysiologicalMAP kinase kinase kinaseKinaseOsmolar ConcentrationIntracellular Signaling Peptides and ProteinsSignal transducing adaptor proteinMembrane ProteinsMAP Kinase Kinase KinasesYeastCell biologyEnzymechemistryFunction (biology)Signal TransductionBiochimica et biophysica acta
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