Search results for "Glycerophosphates"

showing 8 items of 8 documents

Morphology of experimentally denervated and reinnervated rat facial muscle I. Histochemical and histological findings

1994

The morphological changes in rat facial muscles were evaluated after permanent denervation and were compared with findings after immediate reinnervation. Thirty rats underwent transection of the left and right facial nerves immediately followed by hypoglossal-facial nerve anastomosis on the right side (muscular reinnervation) and removal of 8-10 mm of the facial plexus on the left side (permanent muscular denervation). Levator labii muscle samples of both sides were collected sequentially at 2, 6, 7, 10, 20, and 24 weeks after surgery and submitted to routine histological and enzyme histochemical staining procedures. In normal levator labii muscles a typical "chessboard" pattern was found, …

Hypoglossal NervePathologymedicine.medical_specialtyVitamin KFacial MusclesMyofibrilsPerimysialmedicineAnimalsRegenerationRats WistarNerve TransferAdenosine TriphosphatasesNADH Tetrazolium ReductaseDenervationMuscle DenervationHistocytochemistrybusiness.industryAnastomosis SurgicalGeneral MedicineAnatomyFibrosisFacial nerveMuscle DenervationRatsFacial NerveFacial musclesmedicine.anatomical_structureOtorhinolaryngologyConnective TissueGlycerophosphatesNerve TransferFemaleAtrophybusinessHypoglossal nerveReinnervationEuropean Archives of Oto-Rhino-Laryngology
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Free Radicals Mediate Systemic Acquired Resistance

2014

Summary: Systemic acquired resistance (SAR) is a form of resistance that protects plants against a broad spectrum of secondary infections. However, exploiting SAR for the protection of agriculturally important plants warrants a thorough investigation of the mutual interrelationships among the various signals that mediate SAR. Here, we show that nitric oxide (NO) and reactive oxygen species (ROS) serve as inducers of SAR in a concentration-dependent manner. Thus, genetic mutations that either inhibit NO/ROS production or increase NO accumulation (e.g., a mutation in S-nitrosoglutathione reductase [GSNOR]) abrogate SAR. Different ROS function additively to generate the fatty-acid-derived azel…

0106 biological sciences[SDV]Life Sciences [q-bio]ArabidopsisPseudomonas syringaeReductasemedicine.disease_cause01 natural scienceschemistry.chemical_compoundcuticle formationInducerDicarboxylic Acidsskin and connective tissue diseaseslcsh:QH301-705.5chemistry.chemical_classification0303 health sciencesMutationsalicyclic-acidCell biologydefenseGlutathione ReductaseBiochemistryGlycerophosphates[SDE]Environmental Sciencesplant immunitySystemic acquired resistances-nitrosoglutathioneSecondary infectionnitric-oxidearabidopsis-thalianaBiologyNitric OxideGeneral Biochemistry Genetics and Molecular BiologyNitric oxide03 medical and health sciencesmedicine[SDV.BV]Life Sciences [q-bio]/Vegetal Biology030304 developmental biologyReactive oxygen speciesArabidopsis Proteinsfungicell-deathbody regionschemistrylcsh:Biology (General)azelaic-acidresponsesNitric Oxide SynthaseReactive Oxygen SpeciesFunction (biology)010606 plant biology & botanynitric-oxide;plant immunity;arabidopsis-thaliana;s-nitrosoglutathione;cuticle formation;salicyclic-acid;azelaic-acid;cell-death;responses;defenseCell Reports
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Inorganic Polyphosphate in Human Osteoblast-like Cells

1998

Significant amounts of inorganic polyphosphates and of polyphosphate-degrading exopolyphosphatase activity were detected in human mandibular-derived osteoblast-like cells. The amount of both soluble and insoluble long-chain polyphosphate in unstimulated osteoblast-like cells was higher than in human gingival cells, erythrocytes, peripheral blood mononuclear cells, and human blood plasma. The cellular content of polyphosphate in osteoblast-like cells strongly decreased after a combined treatment of the cells with the stimulators of osteoblast proliferation and differentiation, dexamethasone, beta-glycerophosphate, epidermal growth factor, and ascorbic acid. The amount of soluble long-chain p…

HL60Endocrinology Diabetes and MetabolismHL-60 CellsMandibleBiologyDexamethasonechemistry.chemical_compoundCalcitriolPolyphosphatesEpidermal growth factormedicineAnimalsHumansOrthopedics and Sports MedicinePyrophosphatasesCells CulturedExopolyphosphataseOsteoblastsDiphosphonatesEpidermal Growth FactorPolyphosphateCell DifferentiationEtidronic AcidOsteoblastAlkaline PhosphataseAscorbic acidAcid Anhydride HydrolasesRatsInorganic Pyrophosphatasemedicine.anatomical_structureSolubilitychemistryBiochemistryCell cultureGlycerophosphatesAlkaline phosphataseCell DivisionJournal of Bone and Mineral Research
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Induction of carbonic anhydrase in SaOS-2 cells, exposed to bicarbonate and consequences for calcium phosphate crystal formation.

2013

Ca-phosphate/hydroxyapatite crystals constitute the mineralic matrix of vertebrate bones, while Ca-carbonate dominates the inorganic matrix of otoliths. In addition, Ca-carbonate has been identified in lower percentage in apatite crystals. By using the human osteogenic SaOS-2 cells it could be shown that after exposure of the cells to Ca-bicarbonate in vitro, at concentrations between 1 and 10 mm, a significant increase of Ca-deposit formation results. The crystallite nodules formed on the surfaces of SaOS-2 cells become denser and larger in the presence of bicarbonate if simultaneously added together with the mineralization activation cocktail (β-glycerophosphate/ascorbic acid/dexamethason…

Calcium Phosphatesmedicine.drug_classBicarbonateBiophysicschemistry.chemical_elementBioengineering02 engineering and technologyAscorbic AcidCalciumDexamethasoneCell LineBiomaterials03 medical and health scienceschemistry.chemical_compoundCarbonic anhydrasemedicineEscherichia coliHumansCarbonic anhydrase inhibitorBone ResorptionCarbonic Anhydrase InhibitorsSaos-2 cells030304 developmental biologyCarbonic Anhydrases0303 health sciencesbiologyX-RaysGene Expression Regulation Developmental021001 nanoscience & nanotechnologyPhosphateAscorbic acidUp-RegulationAcetazolamideBicarbonatesMicroscopy ElectronchemistryBiochemistryMechanics of MaterialsGlycerophosphatesCeramics and Compositesbiology.protein0210 nano-technologyAcetazolamidemedicine.drugBiomaterials
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Calcium Polyphosphate Nanoparticles Act as an Effective Inorganic Phosphate Source during Osteogenic Differentiation of Human Mesenchymal Stem Cells

2019

The ability of bone-marrow-derived mesenchymal stem/stromal cells (BM-MSCs) to differentiate into osteoblasts makes them the ideal candidate for cell-based therapies targeting bone-diseases. Polyphosphate (polyP) is increasingly being studied as a potential inorganic source of phosphate for extracellular matrix mineralisation. The aim of this study is to investigate whether polyP can effectively be used as a phosphate source during the in vitro osteogenic differentiation of human BM-MSCs. Human BM-MSCs are cultivated under osteogenic conditions for 28 days with phosphate provided in the form of organic &beta

0301 basic medicineCalcium PhosphatesCellCell Culture Techniques02 engineering and technologyExtracellular matrixlcsh:Chemistrychemistry.chemical_compoundOsteogenesisPolyphosphateslcsh:QH301-705.5SpectroscopyCells CulturedCell DifferentiationGeneral Medicine021001 nanoscience & nanotechnologyComputer Science ApplicationsCell biologymedicine.anatomical_structureGlycerophosphatesAlkaline phosphatase0210 nano-technologyinorganic polyphosphateStromal cellchemistry.chemical_elementosteogenic differentiationCalciumCatalysisArticleInorganic Chemistry03 medical and health sciencesmedicineHumansPhysical and Theoretical ChemistryMolecular Biologymesenchymal stem cellsPolyphosphateOrganic ChemistryMesenchymal stem cellβ-glycerolphosphateCa-polyphosphate nanoparticlesPhosphateAlkaline Phosphatase030104 developmental biologychemistrylcsh:Biology (General)lcsh:QD1-999Gene Expression RegulationNanoparticlesCalciumInternational Journal of Molecular Sciences
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The mechanism of hydrolysis of beta-glycerophosphate by kidney alkaline phosphatase.

1975

1. To identify the functional groups that are involved in the conversion of β-glycerophosphate by alkaline phosphatase (EC 3.1.3.1) from pig kidney, the kinetics of alkaline phosphatase were investigated in the pH range 6.6-10.3 at substrate concentrations of 3 μM-30 mM. From the plots of log ṼH+ against pH and log ṼH+/KH+m against pH one functional group with pK = 7.0 and two functional groups with pK = 9.1 were identified. These groups are involved in substrate binding. Another group with pK = 8.8 was found, which in its unprotonated form catalyses substrate conversion. 2. GSH inhibits the alkaline phosphatase reversibly and non-competitively by attacking the bound Zn(II). 3. The influenc…

StereochemistrySwineKidneyBiochemistrychemistry.chemical_compoundHydrolysisAnimalsMagnesiumBinding siteMolecular Biologychemistry.chemical_classificationBinding SitesHydrolysisSubstrate (chemistry)Cell BiologyGlutathioneHydrogen-Ion ConcentrationPhosphateAlkaline PhosphataseGlutathioneKineticsZincEnzymechemistryModels ChemicalGlycerophosphatesFunctional groupAlkaline phosphataseResearch ArticleThe Biochemical journal
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Exhaustive physical exercise and acid hydrolase activity in mouse skeletal muscle

1978

Adult, untrained NMRI mice were exhausted on a motor-driven treadmill by an intermittent-type running programme. Serial cryostate sections for the staining of NADH-tetrazolium reductase, beta-glucuronidase, beta-N-acetylglucosaminidase, and beta-glycerophosphatase activities and for making hematoxylin-eosin staining were cut from m. quadriceps femoris 1, 2, 3, 5, 7, and 15 days after physical exhaustion. A strong increase in the activities of beta-glucuronidase and beta-N-acetylglucosaminidase was observed 7 days after exhaustion and the activity changes, which were similar for the both glycosidases, were more prominent in the highly oxidative red compared to less oxidative white fibres. Ac…

Malemedicine.medical_specialtyHistologyHydrolasesPhysical ExertionConnective tissuePhysical exerciseBiologyMiceMuscular DiseasesInternal medicineAcetylglucosaminidasemedicineAnimalsMyocyteMolecular BiologyGlucuronidaseHistocytochemistryMusclesNADPH DehydrogenaseSkeletal muscleExtremitiesCell BiologyGeneral MedicinePhosphoric Monoester HydrolasesStainingMedical Laboratory TechnologyEndocrinologymedicine.anatomical_structureBiochemistryGlycerophosphatesbiology.proteinAnatomyGeneral Agricultural and Biological SciencesMyofibrilHomeostasisAcid hydrolaseHistochemistry
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Hidden complexity in membrane permeabilization behavior of antimicrobial polycations.

2021

A promising alternative to classical antibiotics are antimicrobial peptides and their synthetic mimics (smAMPs) that supposedly act directly on membranes. For a more successful design of smAMPs, we need to know how the type of interaction with the membrane determines the type of membrane perturbation. How this, in turn, transfers into selectivity and microbial killing activity is largely unknown. Here, we characterize the action of two smAMPs: MM:CO (a copolymer of hydrophobic cyclooctyl subunits and charged β-monomethyl-α-aminomethyl subunits) and the highly charged poly-NM (a homopolymer of α-aminomethyl subunits). By thorough characterization of vesicle leakage experiments, we elucidate …

0303 health sciencesMembrane permeabilizationChemistryVesicleKineticsAntimicrobial peptidesStatic ElectricityGeneral Physics and Astronomy010402 general chemistryAntimicrobialFluoresceins01 natural sciencesPermeability0104 chemical sciences03 medical and health sciencesMembraneGlycerophosphatesBiophysicsPhysical and Theoretical ChemistryHydrophobic and Hydrophilic InteractionsUnilamellar Liposomes030304 developmental biologyLeakage (electronics)Antimicrobial Cationic PeptidesProtein BindingPhysical chemistry chemical physics : PCCP
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