Search results for "Hexose"

showing 10 items of 22 documents

Changes in carbohydrate metabolism in Plasmopara viticola-infected grapevine leaves.

2011

International audience; The oomycete Plasmopara viticola is responsible for downy mildew, a severe grapevine disease. In infected grapevine leaves, we have observed an abnormal starch accumulation at the end of the dark period, suggesting modifications in starch metabolism. Therefore, several complementary approaches, including transcriptomic analyses, measurements of enzyme activities, and sugar quantification, were performed in order to investigate and to understand the effects of P. viticola infection on leaf starch and-to a larger extent-carbohydrate metabolism. Our results indicate that starch accumulation is associated with an increase in ADP-glucose pyrophosphorylase (AGPase) activit…

0106 biological sciencesChlorophyllPhysiologyStarchenzymatic activityhexosesbeta-AmylaseplantGlucose-1-Phosphate Adenylyltransferasetranscriptomic analyse01 natural sciencesinvertasechemistry.chemical_compoundphytopathogenGene Expression Regulation PlantVitisTrehalaseOligonucleotide Array Sequence Analysis0303 health sciencesbiologyfood and beveragesStarchGeneral MedicineEnzymesBiochemistryOomycetesRNA PlantPlasmopara viticolaCarbohydrate metabolism03 medical and health sciencesPlasmopara viticolaADP-glucose pyrophosphorylasePolysaccharidesVignecarbohydrate metabolism[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biologytrehalose030304 developmental biologyPlant Diseasesphotosynthesisbiology.organism_classificationtrehalaseTrehaloseEnzyme assayPlant LeavesInvertasechemistryVitis viniferabiology.proteinDowny mildewfungialpha-AmylasesphysiopathologyAgronomy and Crop Science010606 plant biology & botany
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Enhancement of nortriptyline penetration through human epidermis: influence of chemical enhancers and iontophoresis.

2008

Abstract Different known percutaneous chemical enhancers and iontophoresis have been tested in-vitro to study their ability to increase transdermal absorption of nortriptyline hydrochloride (20 mg mL−1). The chemicals 1-dodecanol, Span 20, Azone, (R)-(+)-limonene or isopropyl myristate were used as an overnight pretreatment at 5% (w/w) in ethanol. Furthermore, isopropyl myristate (20%, w/w) and propylene glycol (15%, w/w) were tested in the same vehicle. Iontophoresis was applied directly to the nortriptyline hydrochloride donor solution for three different concentrations (20, 2 and 0.5 mgmL−1). The chemical enhancers slightly increased the nortriptyline transdermal flux but iontophoresis w…

AdultSkin AbsorptionPharmaceutical ScienceNortriptylinePharmacologyAntidepressive Agents TricyclicIn Vitro TechniquesAdministration CutaneousPermeabilityDiffusionchemistry.chemical_compoundCyclohexenesmedicineHumansIsopropyl myristateTransdermalHexosesPharmacologyChromatographyEthanolIontophoresisMyristatesTerpenesPenetration (firestop)AzepinesIontophoresisMiddle AgedchemistryNortriptyline HydrochlorideDodecanolFemaleNortriptylineEpidermisPharmaceutical VehiclesHEPESAzoneLimonenemedicine.drugThe Journal of pharmacy and pharmacology
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Pharmacological blockade of the fatty acid amide hydrolase (FAAH) alters neural proliferation, apoptosis and gliosis in the rat hippocampus, hypothal…

2015

Endocannabinoids participate in the control of neurogenesis, neural cell death and gliosis. The pharmacological effect of the fatty acid amide hydrolase (FAAH) inhibitor URB597, which limits the endocannabinoid degradation, was investigated in the present study. Cell proliferation (phospho-H3(+) or BrdU(+) cells) of the main adult neurogenic zones as well as apoptosis (cleaved caspase-3(+)), astroglia (GFAP(+)), and microglia (Iba1(+) cells) were analyzed in the hippocampus, hypothalamus and striatum of rats intraperitoneally treated with URB597 (0.3 mg/kg/day) at one dose/4-days resting or 5 doses (1 dose/day). Repeated URB597 treatment increased the plasma levels of the N-acylethanolamine…

AstrocitosNeurobiologia del desenvolupamentAmidohidrolasasCannabinoid receptorCarbamatos:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Intracellular Signaling Peptides and Proteins::Apoptosis Regulatory Proteins::Caspases [Medical Subject Headings]:Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Differentiation::Neurogenesis [Medical Subject Headings]medicine.medical_treatment:Chemicals and Drugs::Carbohydrates::Monosaccharides::Hexoses::Glucose [Medical Subject Headings]Apoptosis:Phenomena and Processes::Physiological Phenomena::Body Constitution::Body Weights and Measures::Body Size::Body Weight [Medical Subject Headings]chemistry.chemical_compound:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Membrane Proteins::Receptors Cell Surface::Receptors G-Protein-Coupled::Receptors Cannabinoid::Receptor Cannabinoid CB1 [Medical Subject Headings]0302 clinical medicine:Chemicals and Drugs::Organic Chemicals::Carboxylic Acids::Acids Acyclic::Carbamates [Medical Subject Headings]Fatty acid amide hydrolaseReceptor cannabinoide CB1:Organisms::Eukaryota::Animals [Medical Subject Headings]FAAHGliosishealth care economics and organizations:Chemicals and Drugs::Nucleic Acids Nucleotides and Nucleosides::Nucleosides::Deoxyribonucleosides::Deoxyuridine::Bromodeoxyuridine [Medical Subject Headings]:Chemicals and Drugs::Lipids::Glycerides::Triglycerides [Medical Subject Headings]Original Research0303 health sciencesNeurogenesisBenzamidas:Chemicals and Drugs::Polycyclic Compounds::Steroids::Cholestanes::Cholestenes::Cholesterol [Medical Subject Headings]Endocannabinoid systemEtanolaminas3. Good healthEndocannabinoides:Chemicals and Drugs::Lipids::Fatty Acids::Fatty Acids Unsaturated::Fatty Acids Monounsaturated::Oleic Acids [Medical Subject Headings]CannabinoidesMicroglíalipids (amino acids peptides and proteins)medicine.symptomColesterol:Chemicals and Drugs::Organic Chemicals::Hydrocarbons::Terpenes::Cannabinoids [Medical Subject Headings]:Chemicals and Drugs::Lipids::Fatty Acids::Palmitic Acids [Medical Subject Headings]psychological phenomena and processesProliferación celularmedicine.medical_specialtyCerebroNeurogenesiseducationBiologyBromodesoxiuridina:Anatomy::Nervous System::Neuroglia::Microglia [Medical Subject Headings]Triglicéridoslcsh:RC321-571Ácidos oléicosRatas03 medical and health sciencesCellular and Molecular NeuroscienceInternal medicineHipocampomedicineCaspasa 3:Anatomy::Nervous System::Central Nervous System::Brain::Limbic System::Hippocampus [Medical Subject Headings]:Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Growth Processes::Cell Proliferation [Medical Subject Headings]lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry030304 developmental biologyPalmitoylethanolamide:Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Molecular Mechanisms of Pharmacological Action::Neurotransmitter Agents::Endocannabinoids [Medical Subject Headings]:Chemicals and Drugs::Enzymes and Coenzymes::Enzymes::Hydrolases::Amidohydrolases [Medical Subject Headings]Cannabinoids:Anatomy::Cells::Neuroglia::Astrocytes [Medical Subject Headings]Peso corporalEnergy metabolism:Anatomy::Nervous System::Central Nervous System::Brain [Medical Subject Headings]:Anatomy::Nervous System::Central Nervous System::Brain::Limbic System::Hypothalamus [Medical Subject Headings]URB597:Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Death [Medical Subject Headings]:Diseases::Pathological Conditions Signs and Symptoms::Pathologic Processes::Gliosis [Medical Subject Headings]:Chemicals and Drugs::Organic Chemicals::Amines::Amino Alcohols::Ethanolamines [Medical Subject Headings]Muerte celular:Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Death::Apoptosis [Medical Subject Headings]:Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Rodentia::Muridae::Murinae::Rats [Medical Subject Headings]EndocrinologyURB597chemistryGliosisnervous systemGlucosaCannabinoidEnergy Metabolism:Chemicals and Drugs::Organic Chemicals::Amides::Benzamides [Medical Subject Headings]HipotálamoÁcidos palmíticos030217 neurology & neurosurgeryNeuroscienceFrontiers in Cellular Neuroscience
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Synthesis and characterisation of N-glycosyl amines from the reaction between 4,6-O-benzylidene-D-glucopyranose and substituted aromatic amines and a…

2001

Twelve N-glycosyl amines were synthesised using 4,6-O–benzylidene-D-glucopyranose and different substituted aromatic amines, including some diamines that resulted in bis-glycosyl amines. Another set of six N–glycosyl amines was synthesised using different hexoses and pentoses and 2–(o–aminophenyl)benzimidazole. All compounds were isolated as solid products and purified, their elemental compositions were established, and these were characterised by NMR (1H and 13C), UV–Vis, and FTIR spectroscopy, by FAB mass spectrometry (molecular-ion peaks gave molecular weights), and by their optical rotations. While the protected saccharide, 4,6-O-benzylidene-D-glucopyranose, exists as a mixture of β and…

BenzimidazoleAnomerGlycosylationOptical RotationNuclear Magnetic Resonance SpectroscopyMolecular Sequence DataPentosesSynthesis (Chemical)macromolecular substancesMass spectrometryBiochemistryMedicinal chemistryMass SpectrometryAnalytical Chemistrychemistry.chemical_compoundOrganic chemistryGlycosylFourier transform infrared spectroscopyAminesPolycyclic Aromatic HydrocarbonsNuclear Magnetic Resonance BiomolecularHexosesMolecular massChemistryChemical shiftOrganic ChemistryHydrogen BondingGeneral MedicineD-GlucopyranoseMolecular WeightGlucoseCarbohydrate Sequencelipids (amino acids peptides and proteins)BenzimidazolesCarbohydrate research
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Plasma glycosphingolipids in diabetics and normals

1975

In diabetic patients with hyperlipoproteinemia type IV the monohexosyl ceramide concentration in blood plasma is significantly elevated. This augmentation can be attributed to an increased monohexosyl ceramide content of the BLDL plasma fraction. In contrast, the di-, tri-, the tetrahexosyl ceramide levels remain within normal limits. In normolipidemic diabetics of comparable age, sex, and weight classes and of comparable metabolic control no elevations of glycolipid fractions could be found. However, patients with primary hyperlipoproteinemia type IV show an increase of monohexosyl ceramide concentrations in blood plasma. Therefore, the augmentation of monohexosyl ceramide levels in plasma…

Blood GlucoseMalemedicine.medical_specialtyCeramideVery low-density lipoproteinHyperlipidemiasLipoproteins VLDLCeramidesGlycosphingolipidsDiabetes Complicationschemistry.chemical_compoundGlycolipidInternal medicineDiabetes mellitusDrug DiscoveryBlood plasmaDiabetes MellitusmedicineHumansObesityTriglyceridesGenetics (clinical)HexosesChemistrynutritional and metabolic diseasesGeneral MedicineMiddle Agedmedicine.diseaseMolecular medicineNormal limitEndocrinologyMetabolic control analysisMolecular MedicineFemaleGlycolipidsKlinische Wochenschrift
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16S-ARDRA, a tool for identification of lactic acid bacteria isolated from grape must and wine.

2003

Lactic acid bacteria (LAB) are found in a great variety of habitats, including grape must and wines. There is a close relationship between the species of LAB which develop during fermentation and the eventual quality of the wine. For these reasons analytical techniques allowing fast and reliable identification of wine LAB are needed. In this work a simple and accurate protocol for identifying species of LAB isolated from grape must and wine is presented. This protocol is based on the amplification, directly from colony, of 16S rDNA and later digestion with one of the following restriction enzymes BfaI, MseI and AluI. A sequential use of the three enzymes is proposed to simplify LAB wine ide…

DNA BacterialWineGram-Positive BacteriaApplied Microbiology and BiotechnologyMicrobiologyDNA RibosomalPolymerase Chain ReactionLactobacillusLeuconostocFood microbiologyLactic AcidPediococcusEcology Evolution Behavior and SystematicsPhylogenyOenococcus oeniHexosesWinebiologyLactobacillus brevisbusiness.industrybiology.organism_classificationDNA FingerprintingBiotechnologyLactobacillusFermentationFood MicrobiologyPediococcusbusinessOenococcusLeuconostocSystematic and applied microbiology
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How hexoses and inhibitors influence the malate transport system in Zygosaccharomyces bailii

1988

When grown in fructose or glucose the cells of Zygosaccharomyces bailii were physiologically different. Only the glucose grown cells (glucose cells) possessed an additional transport system for glucose and malate. Experiments with transport mutants had lead to the assumption that malate and glucose were transported by one carrier, but further experiments proved the existence of two separate carrier systems. Glucose was taken up by carriers with high and low affinity. Malate was only transported by an uptake system and it was not liberated by starved malate-loaded cells, probably due to the low affinity of the intracellular anion to the carrier. The uptake of malate was inhibited by fructose…

HexokinasebiologyZygosaccharomyces bailiiGlucose transporterFructoseGeneral MedicineMaltosebiology.organism_classificationBiochemistryMicrobiologyMalate dehydrogenasechemistry.chemical_compoundchemistryBiochemistryGeneticsMalate transportMolecular BiologyHexose transportArchives of Microbiology
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6-Phosphofructokinase from frog skeletal muscle: purification and properties

1990

HexosediphosphatesMusclesPhosphofructokinase-1Rana temporariaFrog skeletal muscleBiochemistryCitric AcidEnzyme ActivationKineticsEnzyme activatorchemistry.chemical_compoundAdenosine TriphosphatechemistryBiochemistryAnimalsCitratesPhosphofructokinase 1HexosediphosphatesCitric acidAdenosine triphosphatePhosphofructokinaseBiochemical Society Transactions
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D-Glucose and fluid reabsorption in proximal surface tubule of the rat kidney

1972

Hexose reabsorption in the kidney was investigated by microperfusion of proximal cortical rat nephrons with Ringer's solution containingD-glucose (2.5, 5.0 and 18.0 mM/l), 3-O-methylD-glucose (4.5 mM/l) orD-fructose (18.0 mM/l) at perfusion rates of 20 or 40×10−6 ml/min. Inulin was used as a reference for fluid reabsorption. 1. The fraction of fluid reabsorbed was independent of the glucose concentration but it decreased when the perfusion rate increased from 20–40×10−6 ml/min. 2. At 18.0 mM/l the % glucose reabsorption was equal to the % fluid reabsorption. This equality was independent of the perfusion rate, (20 or 40×10−6 ml/min), indicating 1:1 coupling with net isotonic fluid reabsorpt…

Malemedicine.medical_specialtyPhysiologyClinical BiochemistryInulinBiological Transport ActiveFructoseAbsorptionchemistry.chemical_compoundD-GlucosePhysiology (medical)Internal medicinemedicineAnimalsHexosechemistry.chemical_classificationKidneyReabsorptionInulinWaterRatsRenal glucose reabsorptionGlucoseKidney TubulesEndocrinologymedicine.anatomical_structureTubulechemistryPerfusionPflügers Archiv European Journal of Physiology
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Control of glycolysis in vertebrate skeletal muscle during exercise

1996

The gastrocnemius muscle of the frog (Rana temporaria) has a high capacity for anaerobic glycolysis from glycogen. Glycolytic metabolites and effectors of phosphofructokinase, particularly the hexose bisphosphates, were followed in muscle during exercise (swimming between 5 s and 5 min), recovery (rest for up to 2 h after 5 min of swimming), and repeated exercise (swimming for up to 60 s after 2 h of recovery). Glycogen phosphorylase and phosphofructokinase were swiftly activated with exercise. The hexose bisphosphates followed markedly different time courses. Fructose 1,6-bisphosphate was transiently increased in both exercise and repeated exercise. This appears to be an effect rather tha…

Malemedicine.medical_specialtyPhysiologyPhosphofructokinase-1Physical ExertionRana temporariaBiologychemistry.chemical_compoundGlycogen phosphorylasePhysiology (medical)Internal medicinemedicineAnimalsGlycolysisHexosephosphatesExercise physiologyMuscle SkeletalGlycogenSkeletal muscleHindlimbEnzyme Activationmedicine.anatomical_structureEndocrinologychemistryBiochemistryAnaerobic glycolysisGlycolysisAnaerobic exerciseGlycogenPhosphofructokinaseAmerican Journal of Physiology-Regulatory, Integrative and Comparative Physiology
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