0000000000704862

AUTHOR

Andrew R. Pitt

showing 3 related works from this author

Corrigendum to “European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS…

2018

The European Cooperation in Science and Technology (COST) provides an ideal framework to establish multi-disciplinary research networks. COST Action BM1203 (EU-ROS) represents a consortium of researchers from different disciplines who are dedicated to providing new insights and tools for better understanding redox biology and medicine and, in the long run, to finding new therapeutic strategies to target dysregulated redox processes in various diseases. This report highlights the major achievements of EU-ROS as well as research updates and new perspectives arising from its members. The EU-ROS consortium comprised more than 140 active members who worked together for four years on the topics b…

0301 basic medicineSocieties ScientificRedox signalingInternational CooperationClinical BiochemistryNanotechnologyReview ArticleBiologyPublic administrationBiochemistryAntioxidantsArticle03 medical and health sciencesmedia_common.cataloged_instanceAnimalsHumansCost actionEuropean UnionEuropean unionMolecular Biologylcsh:QH301-705.5media_commonFunding AgencyRedox therapeuticslcsh:R5-920Organic ChemistryReactive nitrogen species030104 developmental biologyWork (electrical)lcsh:Biology (General)Oxidative stressReactive Oxygen Specieslcsh:Medicine (General)Oxidation-ReductionSignal TransductionRedox Biology
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Lipid Composition Analysis Reveals Mechanisms of Ethanol Tolerance in the Model YeastSaccharomyces cerevisiae

2021

Saccharomyces cerevisiae is an important unicellular yeast species within the biotechnological and the food and beverage industries. A significant application of this species is the production of ethanol, where concentrations are limited by cellular toxicity, often at the level of the cell membrane. Here, we characterize 61 S. cerevisiae strains for ethanol tolerance and further analyze five representatives with various ethanol tolerances. The most tolerant strain, AJ4, was dominant in coculture at 0 and 10% ethanol. Unexpectedly, although it does not have the highest noninhibitory concentration or MIC, MY29 was the dominant strain in coculture at 6% ethanol, which may be linked to differen…

Phosphatidylethanolamine0303 health sciencesEthanolEcologybiology030306 microbiologyChemistrySaccharomyces cerevisiaeLipidomebiology.organism_classificationApplied Microbiology and BiotechnologySaccharomycesYeastCell membrane03 medical and health scienceschemistry.chemical_compoundmedicine.anatomical_structureMembranemedicineFood science030304 developmental biologyFood ScienceBiotechnologyApplied and Environmental Microbiology
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Adaptive response to wine selective pressures shapes the genome of a Saccharomyces interspecies hybrid

2021

During industrial processes, yeasts are exposed to harsh conditions, which eventually lead to adaptation of the strains. In the laboratory, it is possible to use experimental evolution to link the evolutionary biology response to these adaptation pressures for the industrial improvement of a specific yeast strain. In this work, we aimed to study the adaptation of a wine industrial yeast in stress conditions of the high ethanol concentrations present in stopped fermentations and secondary fermentations in the processes of champagne production. We used a commercial Saccharomyces cerevisiae × S. uvarum hybrid and assessed its adaptation in a modified synthetic must (M-SM) containing high ethan…

GeneticsFermentation in winemakingWine0303 health sciencesExperimental evolutionStrain (chemistry)030306 microbiologySaccharomyces cerevisiaeGeneral MedicineSaccharomyces cerevisiaeBiologybiology.organism_classificationGenome sequencingSaccharomycesSaccharomyces uvarumYeast03 medical and health sciencesS. uvarumArtificial hybridAdaptationAdaptationRNA-seq030304 developmental biology
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