Search results for "Monosaccharide"

showing 10 items of 77 documents

Biochemical characterization of the skeletal matrix of the massive coral, Porites australiensis - The saccharide moieties and their localization.

2018

11 pages; International audience; To construct calcium carbonate skeletons of sophisticated architecture, scleractinian corals secrete an extracellular skeletal organic matrix (SOM) from aboral ectodermal cells. The SOM, which is composed of proteins, saccharides, and lipids, performs functions critical for skeleton formation. Even though polysaccharides constitute the major component of the SOM, its contribution to coral skeleton formation is poorly understood. To this end, we analyzed the SOM of the massive colonial coral, Porites australiensis, the skeleton of which has drawn great research interest because it records environmental conditions throughout the life of the colony. The coral …

0106 biological sciences0301 basic medicineBiomineralizationGlycanCoralMatrix (biology)Polysaccharide010603 evolutionary biology01 natural sciencesCalcium Carbonate03 medical and health sciencesCalcification PhysiologicSaccharideStructural BiologyMonosaccharideAnimals14. Life underwater[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsSkeletonchemistry.chemical_classificationbiologySkeletal organic matrixLectinProteinsAnthozoaSkeleton (computer programming)Porites australiensisExtracellular Matrix030104 developmental biologyBiochemistrychemistrybiology.proteinMicroscopy Electron ScanningCoralCrystallizationBiomineralization
researchProduct

Sugar exchanges in arbuscular mycorrhiza: RiMST5 and RiMST6, two novel Rhizophagus irregularis monosaccharide transporters, are involved in both suga…

2016

SPE IPM INRA UB CT1; International audience; Arbuscular mycorrhizal (AM) fungi are associated with about 80% of land plants. AM fungi provide inorganic nutrients to plants and in return up to 20% of the plant-fixed CO2 is transferred to the fungal symbionts. Since AM fungi are obligate biotrophs, unraveling how sugars are provided to the fungus partner is a key for understanding the functioning of the symbiosis. In this study, we identified two new monosaccharide transporters from Rhizophagus irregularis (RiMST5 and RiMST6) that we characterized as functional high affinity monosaccharide transporters. RiMST6 was characterized as a glucose specific, high affinity H(+) co-transporter. We prov…

0106 biological sciences0301 basic medicineRhizophagus irregularisLightPhysiology[SDV]Life Sciences [q-bio]Plant Sciencearbuscular mycorrhizal fungus01 natural sciencesrhizophagus irregularisGlomeromycotaSoilGene Expression Regulation PlantMycorrhizaeMedicagoPhylogeny2. Zero hungerMutualism (biology)Fungal proteinReverse Transcriptase Polymerase Chain Reactionglucose specificMonosaccharidesfood and beverageshigh affinity H+ co-transporterhigh affinity transporterArbuscular mycorrhizaBiochemistry[SDE]Environmental SciencesFungusSaccharomyces cerevisiaeBiologyFungal Proteins03 medical and health sciencesSymbiosisStress PhysiologicalBotanyGenetics[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyRNA MessengerGlomeromycotaObligateCell MembraneGenetic Complementation TestfungiMST5MST6Membrane Transport Proteins15. Life on landmonosaccharide transporterbiology.organism_classification030104 developmental biologyGlucose010606 plant biology & botany
researchProduct

The shell matrix of the pulmonate land snail Helix aspersa maxima.

2012

12 pages; International audience; In mollusks, the shell mineralization process is controlled by an array of proteins, glycoproteins and polysaccharides that collectively constitute the shell matrix. In spite of numerous researches, the shell protein content of a limited number of model species has been investigated. This paper presents biochemical data on the common edible land snail Helix aspersa maxima, a model organism for ecotoxicological purposes, which has however been poorly investigated from a biomineralization viewpoint. The shell matrix of this species was extracted and analyzed biochemically for functional in vitro inhibition assay, for amino acid and monosaccharides composition…

0106 biological sciencesBiomineralizationPulmonate snailPhysiology01 natural sciencesBiochemistryMineralization (biology)chemistry.chemical_compoundX-Ray DiffractionTandem Mass SpectrometryElectrophoresis Gel Two-DimensionalHaliotisAmino AcidsComputingMilieux_MISCELLANEOUSchemistry.chemical_classification0303 health sciencesEcologyMonosaccharidesLand snailImmunogold labellingImmunohistochemistryAmino acidBiochemistryElectrophoresis Polyacrylamide GelTerrestrial snail ; biomineralization ; shell ; aragonite ; crossed-lamellar ; protein ; immunogold ; gel electrophoresisFrancefood.ingredientBiology010603 evolutionary biologyCalcium Carbonate03 medical and health sciencesfoodSpecies SpecificityAnimal ShellsShellAnimals14. Life underwater[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular Biology030304 developmental biologyHelix SnailsProteinsCrossed-lamellarbiology.organism_classification[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsGel electrophoresis[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyCalcium carbonatechemistryMicroscopy Electron ScanningBiomineralizationPinctadaComparative biochemistry and physiology. Part B, Biochemistrymolecular biology
researchProduct

Study on the effects of several operational variables on the enzymatic batch saccharification of orange solid waste

2017

In this work, batch enzyme-aided extraction and enzymatic saccharification of blade-milled orange waste was studied. The operation variables for this process were thoroughly analysed. It was determined that batch runs with initial pH values of 5.0 and 5.2 controlled during the first hour, 50°C and 300-500r.p.m. agitation resulted in the best yields, with a limited total and partial first-order enzyme deactivation (for cellulases and polygalacturonidase, respectively). Orange peel waste (OPW) at 6.7% w/w dry solid, 0.22 filter paper units (FPU)/g DS and proportional activities of other enzymes led to over 40g/L free monosaccharides and global yields to glucose over 80%. When using 10.1% w/w …

0106 biological sciencesEnvironmental EngineeringMunicipal solid wasteBioengineeringCellulaseOrange (colour)010501 environmental sciencesSolid Waste01 natural sciencesHydrolysis010608 biotechnologyCellulasesMonosaccharideWaste Management and Disposal0105 earth and related environmental scienceschemistry.chemical_classificationChromatographyFilter paperWaste managementbiologyRenewable Energy Sustainability and the EnvironmentHydrolysisHumidityGeneral MedicineGlucoseEnzymechemistryFermentationbiology.proteinCitrus sinensisBioresource Technology
researchProduct

Sugar transporters in plants and in their interactions with fungi.

2012

International audience; Sucrose and monosaccharide transporters mediate long distance transport of sugar from source to sink organs and constitute key components for carbon partitioning at the whole plant level and in interactions with fungi. Even if numerous families of plant sugar transporters are defined; efflux capacities, subcellular localization and association to membrane rafts have only been recently reported. On the fungal side, the investigation of sugar transport mechanisms in mutualistic and pathogenic interactions is now emerging. Here, we review the essential role of sugar transporters for distribution of carbohydrates inside plant cells, as well as for plant fungal interactio…

0106 biological sciencesSucroseSucroseMonosaccharide Transport Proteins[SDV]Life Sciences [q-bio]plantPlant ScienceBiologyCarbohydrate metabolism01 natural sciences03 medical and health scienceschemistry.chemical_compoundMembrane MicrodomainsSymbiosisMycorrhizaemonosaccharideMonosaccharidetransporters mediateSugarSymbiosis030304 developmental biologyPlant Diseaseschemistry.chemical_classification0303 health sciencesfungiMonosaccharidesfood and beveragesTransporterPlantsSubcellular localizationPlant LeaveschemistryBiochemistry[SDE]Environmental SciencesCarbohydrate MetabolismEffluxtransport of sugar010606 plant biology & botanyTrends in plant science
researchProduct

The Medicago truncatula sucrose transporter family: characterization and implication of key members in carbon partitioning towards arbuscular mycorrh…

2012

We identified de novo sucrose transporter (SUT) genes involved in long-distance transport of sucrose from photosynthetic source leaves towards sink organs in the model leguminous species Medicago truncatula. The iden- tification and functional analysis of sugar transporters provide key information on mechanisms that underlie carbon partitioning in plant-microorganism interactions. In that way, full-length sequences of the M. truncatula SUT (MtSUT) family were retrieved and biochemical characterization of MtSUT members was performed by heterologous expression in yeast. The MtSUT family now comprises six genes which distribute among Dicotyledonous clades. MtSUT1-1 and MtSUT4-1 are key members…

0106 biological sciencesSucrose[SDV]Life Sciences [q-bio]Plant Science01 natural sciencesSIEVE ELEMENTSchemistry.chemical_compoundGene Expression Regulation Plantsucrose transporterMycorrhizaePHLOEMROOTSPlant Proteins2. Zero hungerRegulation of gene expression0303 health sciencesPHOSPHATE TRANSPORTERbiologyfood and beveragesARABIDOPSISSUTMedicago truncatulasugar partitioning[SDE]Environmental Sciencessugar transportGlomus intraradicesEXPRESSIONTOMATO SUGAR TRANSPORTERMolecular Sequence DataGENE FAMILYPhosphates03 medical and health sciencesSymbiosisBotanyMedicago truncatula[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyPLANTSSugarGlomeromycotaSymbiosisGeneMolecular Biology030304 developmental biologyfungiMembrane Transport Proteins15. Life on landbiology.organism_classificationMONOSACCHARIDE TRANSPORTERYeastCarbonchemistryHeterologous expression010606 plant biology & botanyMolecular plant
researchProduct

Unsaturated Oral Fat Load Test Improves Glycemia, Insulinemia and Oxidative Stress Status in Nondiabetic Subjects with Abdominal Obesity.

2016

Aims To evaluate the changes in glycemia, insulinemia, and oxidative stress markers during an oral fat load test in nondiabetic subjects with abdominal obesity and to analyze the association between postprandial oxidative stress markers and postprandial glucose and insulin responses. Methods We included 20 subjects with abdominal obesity (waist circumference > 102 cm for men and > 88 cm for women) and 20 healthy lean controls (waist circumference < 102 cm for men and < 88 cm for women). After 12 hours of fasting we performed a standardized fat load test (0–8 hours) with supracal® (50 g/m2). We determined metabolic parameters, oxidized and reduced glutathione, and malondialdehyde. Results In…

0301 basic medicineBlood GlucoseMalePhysiologymedicine.medical_treatmentlcsh:MedicineBiochemistryFatschemistry.chemical_compound0302 clinical medicineEndocrinologyMalondialdehydeMedicine and Health SciencesInsulinlcsh:ScienceAbdominal obesityMultidisciplinaryOrganic CompoundsMonosaccharidesMiddle AgedMalondialdehydePostprandial PeriodGlutathioneLipidsChemistryPostprandialCholesterolPhysiological ParametersObesity AbdominalPhysical SciencesFemalemedicine.symptomResearch ArticleAdultmedicine.medical_specialtyWaistAdolescentLipoproteinsCarbohydrates030209 endocrinology & metabolism03 medical and health sciencesYoung AdultInsulin resistanceInternal medicinemedicineHumansObesityAgedDiabetic EndocrinologyEndocrine Physiologybusiness.industryInsulinUnsaturated fatlcsh:RBody WeightOrganic ChemistryChemical CompoundsBiology and Life SciencesProteinsCell Biologymedicine.diseaseObesityHormonesFats UnsaturatedOxidative Stress030104 developmental biologyEndocrinologyGlucosechemistryCase-Control Studieslcsh:QInsulin ResistancebusinessPloS one
researchProduct

The Effect of a Novel c.820C>T (Arg274Trp) Mutation in the Mitofusin 2 Gene on Fibroblast Metabolism and Clinical Manifestation in a Patient

2017

Charcot-Marie-Tooth disease type 2A (CMT2A) is an autosomal dominant axonal peripheral neuropathy caused by mutations in the mitofusin 2 gene (MFN2). Mitofusin 2 is a GTPase protein present in the outer mitochondrial membrane and responsible for regulation of mitochondrial network architecture via the fusion of mitochondria. As that fusion process is known to be strongly dependent on the GTPase activity of mitofusin 2, it is postulated that the MFN2 mutation within the GTPase domain may lead to impaired GTPase activity, and in turn to mitochondrial dysfunction. The work described here has therefore sought to verify the effects of MFN2 mutation within its GTPase domain on mitochondrial and e…

0301 basic medicineMaleHydrolasesMutantMFN2lcsh:MedicineGTPaseMitochondrionmedicine.disease_causeEndoplasmic ReticulumBiochemistryGTP Phosphohydrolases0302 clinical medicineMental RetardationAnimal CellsCharcot-Marie-Tooth DiseaseMedicine and Health SciencesMissense mutationlcsh:ScienceEnergy-Producing OrganellesCells CulturedConnective Tissue CellsGeneticsMutationMultidisciplinarySecretory PathwayOrganic CompoundsMonosaccharidesTryptophanMitochondrial DNACell biologyMitochondriaEnzymesNucleic acidsChemistryNeurologyConnective TissueCell ProcessesPhysical SciencesCellular Structures and OrganellesCellular TypesAnatomyResearch ArticleForms of DNACarbohydratesMutation MissenseBiologyBioenergeticsArgininePolymorphism Single NucleotideMitochondrial Proteins03 medical and health sciencesMitofusin-2Young AdultmedicineGeneticsHumansEndoplasmic reticulumlcsh:ROrganic ChemistryChemical CompoundsBiology and Life SciencesProteinsCell BiologyDNAFibroblastsGuanosine Triphosphatase030104 developmental biologyBiological TissueGlucoseAmino Acid SubstitutionCase-Control StudiesMutationEnzymologylcsh:Q030217 neurology & neurosurgeryPLoS ONE
researchProduct

A Thermodynamic Model of Monovalent Cation Homeostasis in the Yeast Saccharomyces cerevisiae

2016

Cationic and heavy metal toxicity is involved in a substantial number of diseases in mammals and crop plants. Therefore, the understanding of tightly regulated transporter activities, as well as conceiving the interplay of regulatory mechanisms, is of substantial interest. A generalized thermodynamic description is developed for the complex interplay of the plasma membrane ion transporters, membrane potential and the consumption of energy for maintaining and restoring specific intracellular cation concentrations. This concept is applied to the homeostasis of cation concentrations in the yeast cells of S. cerevisiae. The thermodynamic approach allows to model passive ion fluxes driven by the…

0301 basic medicinePhysiologyATPaseAntiporterYeast and Fungal ModelsPhysical ChemistryBiochemistryIon ChannelsCation homeostasisMedicine and Health SciencesHomeostasislcsh:QH301-705.5Membrane potentialEcologybiologyChemistryOrganic CompoundsPhysicsMonosaccharidesElectrophysiologyChemistryComputational Theory and MathematicsBiochemistryModeling and SimulationPhysical SciencesThermodynamicsProtonsAlgorithmsResearch ArticleChemical ElementsSaccharomyces cerevisiaeCarbohydratesSaccharomyces cerevisiaeResearch and Analysis MethodsMembrane PotentialModels Biological03 medical and health sciencesCellular and Molecular NeuroscienceSaccharomycesModel OrganismsCationsGeneticsMolecular BiologyEcology Evolution Behavior and SystematicsIon transporterNuclear PhysicsNucleonsIonsOrganic ChemistrySodiumChemical CompoundsOrganismsFungiBiology and Life SciencesComputational BiologyBiological Transportbiology.organism_classificationYeast030104 developmental biologyGlucoseMetabolismlcsh:Biology (General)SymporterActive transportbiology.proteinBiophysicsPLoS Computational Biology
researchProduct

Activity of the α-glucoside transporter Agt1 in Saccharomyces cerevisiae cells during dehydration-rehydration events

2018

Microbial cells can enter a state of anhydrobiosis under desiccating conditions. One of the main determinants of viability during dehydration-rehydration cycles is structural integrity of the plasma membrane. Whereas much is known about phase transitions of the lipid bilayer, there is a paucity of information on changes in activity of plasma membrane proteins during dehydration-rehydration events. We selected the α-glucoside transporter Agt1 to gain insights into stress mechanisms/responses and ecophysiology during anhydrobiosis. As intracellular water content of S. cerevisiae strain 14 (a strain with moderate tolerance to dehydration-rehydration) was reduced to 1.5 g water/g dry weight, th…

0301 basic medicineSaccharomyces cerevisiae ProteinsMonosaccharide Transport ProteinsEvolution030106 microbiologySaccharomyces cerevisiaeSaccharomyces cerevisiaeDehydration-rehydration03 medical and health sciencesGlucosidesBehavior and Systematicsα-Glucoside transporterMembrane proteinsGeneticsViability assayDesiccationLipid bilayerEcology Evolution Behavior and SystematicsMicrobial ViabilitySymportersbiologyStrain (chemistry)EcologyCell MembraneBiological TransportTransporterbiology.organism_classificationAnhydrobiosisYeastYeast030104 developmental biologyInfectious DiseasesBiochemistryMembrane proteinAnhydrobiosis; Dehydration-rehydration; Membrane proteins; Yeast; α-Glucoside transporter; Ecology Evolution Behavior and Systematics; Genetics; Infectious DiseasesIntracellular
researchProduct