Search results for "Llevats"

showing 4 items of 4 documents

The Saccharomyces cerevisiae Hot1p regulated gene YHR087W (HGI1) has a role in translation upon high glucose concentration stress.

2012

Abstract Background While growing in natural environments yeasts can be affected by osmotic stress provoked by high glucose concentrations. The response to this adverse condition requires the HOG pathway and involves transcriptional and posttranscriptional mechanisms initiated by the phosphorylation of this protein, its translocation to the nucleus and activation of transcription factors. One of the genes induced to respond to this injury is YHR087W. It encodes for a protein structurally similar to the N-terminal region of human SBDS whose expression is also induced under other forms of stress and whose deletion determines growth defects at high glucose concentrations. Results In this work …

Chromatin ImmunoprecipitationTranslation<it>Saccharomyces cerevisiae</it>Saccharomyces cerevisiae Proteinslcsh:QH426-470Monosaccharide Transport ProteinsSaccharomyces cerevisiaeSaccharomyces cerevisiaeBiologyGene YHR087WHog1pTranscripció genèticaEukaryotic translationStress PhysiologicalPolysomeGene Expression Regulation FungalGene expressionProtein biosynthesisHigh glucose osmotic stresslcsh:QH573-671Transcription factorMolecular BiologyRegulation of gene expressionGenetic transcriptionlcsh:CytologyComputational BiologyTranslation (biology)biology.organism_classificationBlotting NorthernExpressió gènicaYeastlcsh:GeneticsGlucoseBiochemistryMicroscopy FluorescencePolyribosomesProtein BiosynthesisPolysomesGene <it>YHR087W</it>Gene expressionLlevatsMitogen-Activated Protein KinasesHot1pTranscription FactorsResearch ArticleBMC molecular biology
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Heat shock response in yeast involver changes in both transcription rates and mRNA stabilities

2011

We have analyzed the heat stress response in the yeast Saccharomyces cerevisiae by determining mRNA levels and transcription rates for the whole transcriptome after a shift from 25uC to 37uC. Using an established mathematical algorithm, theoretical mRNA decay rates have also been calculated from the experimental data. We have verified the mathematical predictions for selected genes by determining their mRNA decay rates at different times during heat stress response using the regulatable tetO promoter. This study indicates that the yeast response to heat shock is not only due to changes in transcription rates, but also to changes in the mRNA stabilities. mRNA stability is affected in 62% of …

Llevat de cervesaTranscription GeneticEstrès oxidatiuRNA StabilitySaccharomyces cerevisiaeGene Expressionlcsh:MedicineYeast and Fungal ModelsRNA-binding proteinSaccharomyces cerevisiaeModels BiologicalGenètica molecularModel OrganismsTranscripció genèticaGenome Analysis ToolsTranscription (biology)Gene Expression Regulation FungalYeastsHeat shock proteinMolecular Cell BiologyGeneticsCluster AnalysisRNA MessengerHeat shocklcsh:ScienceBiologyGeneTranscription factorHeat-Shock ProteinsMultidisciplinaryBase SequenceOrganisms Genetically ModifiedbiologySystems Biologylcsh:RRNA FungalLlevats -- GenèticaGenomicsbiology.organism_classificationMolecular biologyFunctional GenomicsCell biologyRegulonRNAlcsh:QGenome Expression AnalysisHeat-Shock ResponseResearch ArticleTranscription Factors
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Engineered Trx2p industrial yeast strain protects glycolysis and fermentation proteins from oxidative carbonylation during biomass propagation

2012

Abstract Background In the yeast biomass production process, protein carbonylation has severe adverse effects since it diminishes biomass yield and profitability of industrial production plants. However, this significant detriment of yeast performance can be alleviated by increasing thioredoxins levels. Thioredoxins are important antioxidant defenses implicated in many functions in cells, and their primordial functions include scavenging of reactive oxygen species that produce dramatic and irreversible alterations such as protein carbonylation. Results In this work we have found several proteins specifically protected by yeast Thioredoxin 2 (Trx2p). Bidimensional electrophoresis and carbony…

Saccharomyces cerevisiae ProteinsAntioxidantProtein Carbonylationmedicine.medical_treatmentlcsh:QR1-502CarbonylationBioengineeringSaccharomyces cerevisiaeBiomassaBiologyProtein EngineeringOxidacióStressApplied Microbiology and Biotechnologylcsh:MicrobiologyProtein CarbonylationThioredoxinsYeastsmedicineGlycolysisBiomasschemistry.chemical_classificationReactive oxygen speciesResearchAlcohol Dehydrogenasefood and beveragesYeastOxidative StressEnzymechemistryBiochemistryFermentationFermentationLlevatsThioredoxinGlycolysisOxidation-ReductionBiotechnologyMicrobial Cell Factories
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Reduction of oxidative cellular damage by overexpression of the thioredoxin TRX2 gene improves yield and quality of wine yeast dry active biomass

2009

14 pages, 7 figures, 2 tables.

Saccharomyces cerevisiae ProteinsAntioxidantVi -- Llevatsmedicine.medical_treatmentSaccharomyces cerevisiaelcsh:QR1-502Gene ExpressionWineBioengineeringSaccharomyces cerevisiaemedicine.disease_causeApplied Microbiology and Biotechnologylcsh:MicrobiologyThioredoxinsGlutaredoxinmedicineVi -- OxidacióBiomassbiologyResearchfood and beveragesbiology.organism_classificationGlutathioneYeastOxidative StressYeast in winemakingBiochemistryFermentationFermentationThioredoxinOxidative stressBiotechnology
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