Search results for "Aliments Biotecnologia"

showing 2 items of 2 documents

Under control: how a dietary additive can restore the gut microbiome and proteomic profile, and improve disease resilience in a marine teleostean fis…

2017

[Background]: The constant increase of aquaculture production and wealthy seafood consumption has forced the industry to explore alternative and more sustainable raw aquafeed materials, and plant ingredients have been used to replace marine feedstuffs in many farmed fish. The objective of the present study was to assess whether plant-based diets can induce changes in the intestinal mucus proteome, gut autochthonous microbiota and disease susceptibility of fish, and whether these changes could be reversed by the addition of sodium butyrate to the diets. Three different trials were performed using the teleostean gilthead sea bream (Sparus aurata) as model. In a first preliminary short-term tr…

0301 basic medicineProteomicsAliments BiotecnologiaProteomeAquaculturemedicine.disease_causechemistry.chemical_compoundFish DiseasesAquacultureSparus aurataFood science2. Zero hungerPathogen challengebiologyDiet VegetarianSodium butyrate04 agricultural and veterinary sciences3. Good healthIntestineslcsh:QR100-130Microbiology (medical)Fish farmingParasitic Diseases AnimalIntestinal parasiteButyrateMicrobiologylcsh:Microbial ecology03 medical and health sciencesIntestinal healthmedicineAnimals14. Life underwaterMicrobiomeMyxozoaNutricióNutritionPeixos Alimentacióbusiness.industryPhotobacteriumResearchEnteromyxum leeiSodium butyratePhotobacteriumbiology.organism_classificationAnimal FeedSea BreamGastrointestinal Microbiome030104 developmental biologychemistry040102 fisheries0401 agriculture forestry and fisheriesButyric AcidMicrobiomebusinessBacteria
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Evolutionary advantage conferred by an eukaryote-to-eukaryote gene transfer event in wine yeasts

2015

Although an increasing number of horizontal gene transfers have been reported in eukaryotes, experimental evidence for their adaptive value is lacking. Here, we report the recent transfer of a 158-kb genomic region between Torulaspora microellipsoides and Saccharomyces cerevisiae wine yeasts or closely related strains. This genomic region has undergone several rearrangements in S. cerevisiae strains, including gene loss and gene conversion between two tandemly duplicated FOT genes encoding oligopeptide transporters. We show that FOT genes confer a strong competitive advantage during grape must fermentation by increasing the number and diversity of oligopeptides that yeast can utilize as a s…

transfert de gènes[SDV.SA]Life Sciences [q-bio]/Agricultural sciencesBiologiaAliments BiotecnologiaSaccharomycesnitrogensaccharomycesvinVitisBiomassAmino AcidsHomologous Recombinationgene transferFermentation in winemakingGeneticsazote0303 health sciencesVegetal Biologybiologyfot genesfood and beverageseucaryoteBiological EvolutionGlutathioneAgricultural sciencesPhenotypeEukaryotehgt;domestication;competition;nitrogen;oligopeptides;fot genesoligopeptidescompetitionGene Transfer HorizontalGenes FungalSaccharomyces cerevisiaehgtSaccharomyces cerevisiae03 medical and health sciencesdomesticationalcoholic fermentationGenetics[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyFermentacióGene conversionwineMolecular BiologyGeneDiscoveriesEcology Evolution Behavior and Systematics030304 developmental biologyWinefermentation alcooliqueBase Sequence030306 microbiologybiology.organism_classificationYeastFermentationrégion génomiqueBiologie végétaleSciences agricoles
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