Search results for "Neuronal Dendrites"

showing 5 items of 5 documents

Fasciola spp: Mapping of the MF6 epitope and antigenic analysis of the MF6p/HDM family of heme-binding proteins

2017

MF6p/FhHDM-1 is a small cationic heme-binding protein which is recognized by the monoclonal antibody (mAb) MF6, and abundantly present in parenchymal cells and secreted antigens of Fasciola hepatica. Orthologs of this protein (MF6p/HDMs) also exist in other causal agents of important foodborne trematodiasis, such as Clonorchis sinensis, Opisthorchis viverrini and Paragonimus westermani. Considering that MF6p/FhHDM-1 is relevant for heme homeostasis in Fasciola and was reported to have immunomodulatory properties, this protein is expected to be a useful target for vaccination. Thus, in this study we mapped the epitope recognized by mAb MF6 and evaluated its antigenicity in sheep. The sequenc…

0301 basic medicineParagonimus westermaniFasciola sppPhysiologyProtein ConformationFlatwormslcsh:MedicineProtein Structure PredictionBiochemistryEpitopeAntigenicEpitopes0302 clinical medicineAnimal CellsImmune PhysiologyMedicine and Health SciencesMacromolecular Structure AnalysisMF6p/HDMEnzyme-Linked Immunoassayslcsh:ScienceMammalsNeuronsImmune System ProteinsMultidisciplinaryFasciolabiologyVaccinationEukaryotaAntibodies MonoclonalRuminantsDendritic StructureVertebratesCellular TypesAntibodyResearch ArticleHemeproteinsProtein StructureAntigenicityFascioliasisHeme bindingImmunology030231 tropical medicineAntibodies HelminthEnzyme-Linked Immunosorbent AssayHemeResearch and Analysis MethodsTrematodesAntibodiesHeme-Binding Proteins03 medical and health sciencesHelminthsparasitic diseasesParasitic DiseasesFasciola hepaticaAnimalsImmunoassaysMolecular BiologySheeplcsh:ROrganismsBiology and Life SciencesProteinsCell BiologyDendritesNeuronal DendritesFasciola hepaticabiology.organism_classificationInvertebratesMolecular biologyFasciola030104 developmental biologyEpitope mappingCellular NeuroscienceAntigens HelminthAmniotesImmunologic Techniquesbiology.proteinlcsh:QCarrier ProteinsEpitope MappingNeuroscience
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An update to Hippocampome.org by integrating single-cell phenotypes with circuit function in vivo.

2021

Understanding brain operation demands linking basic behavioral traits to cell-type specific dynamics of different brain-wide subcircuits. This requires a system to classify the basic operational modes of neurons and circuits. Single-cell phenotyping of firing behavior during ongoing oscillations in vivo has provided a large body of evidence on entorhinal–hippocampal function, but data are dispersed and diverse. Here, we mined literature to search for information regarding the phase-timing dynamics of over 100 hippocampal/entorhinal neuron types defined in Hippocampome.org. We identified missing and unresolved pieces of knowledge (e.g., the preferred theta phase for a specific neuron type) a…

DYNAMICSGABAERGIC INTERNEURONPhysiologyAction PotentialsSocial SciencesHippocampal formationHippocampusNeuron typesBehavioral traitsMice0302 clinical medicineAnimal CellsMedicine and Health SciencesEntorhinal CortexPsychologyNETWORKBiology (General)Function (engineering)media_commonNeurons0303 health sciencesPHYSIOLOGICAL-PROPERTIESGeneral NeurosciencePyramidal CellsMethods and ResourcesBrainPhenotypeMOSSY CELLS3. Good healthElectrophysiologyPhenotypeAnatomyCellular TypesGeneral Agricultural and Biological SciencesGanglion CellsHeuristic (computer science)QH301-705.5media_common.quotation_subjectNeurophysiologyBiologyMembrane PotentialGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesAnimalsin vivo -menetelmähippokampus030304 developmental biologyBehaviorNeuron typeGeneral Immunology and MicrobiologyGranule CellsTHETA OSCILLATIONShermoverkot (biologia)Biology and Life SciencesCell BiologyNeuronal DendritesSILICON PROBESRatshermosolutBrain stateCellular Neuroscience1182 Biochemistry cell and molecular biologyfenotyyppi3111 BiomedicineNeuroscience030217 neurology & neurosurgeryNeurosciencePLoS biology
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Coincident glutamatergic depolarizations enhance GABAA receptor-dependent Cl- influx in mature and suppress Cl- efflux in immature neurons.

2021

The impact of GABAergic transmission on neuronal excitability depends on the Cl--gradient across membranes. However, the Cl--fluxes through GABAA receptors alter the intracellular Cl- concentration ([Cl-]i) and in turn attenuate GABAergic responses, a process termed ionic plasticity. Recently it has been shown that coincident glutamatergic inputs significantly affect ionic plasticity. Yet how the [Cl-]i changes depend on the properties of glutamatergic inputs and their spatiotemporal relation to GABAergic stimuli is unknown. To investigate this issue, we used compartmental biophysical models of Cl- dynamics simulating either a simple ball-and-stick topology or a reconstructed CA3 neuron. Th…

Databases FactualPhysiologyNervous SystemBiochemistrySynaptic TransmissionAnimal CellsMedicine and Health SciencesCl effluxBiology (General)Receptorgamma-Aminobutyric AcidNeuronsNeuronal PlasticityEcologyNeuronal MorphologyGABAA receptorChemistryPyramidal CellsNeurochemistryNeurotransmittersCA3 Region HippocampalElectrophysiologymedicine.anatomical_structureComputational Theory and MathematicsModeling and SimulationGABAergicAnatomyCellular TypesReceptor PhysiologyIntracellularResearch ArticleCell PhysiologyQH301-705.5Models NeurologicalNeurophysiologyMembrane PotentialCellular and Molecular NeuroscienceGlutamatergicChloridesGeneticsmedicineAnimalsMolecular BiologyEcology Evolution Behavior and SystematicsBiology and Life SciencesComputational BiologyCell BiologyNeuronal DendritesReceptors GABA-ACellular NeuroscienceSynapsesCa3 pyramidal neuronDepolarizationNeuronNeuroscienceNeurosciencePLoS Computational Biology
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Modelling the spatial and temporal constrains of the GABAergic influence on neuronal excitability

2021

GABA (γ-amino butyric acid) is an inhibitory neurotransmitter in the adult brain that can mediate depolarizing responses during development or after neuropathological insults. Under which conditions GABAergic membrane depolarizations are sufficient to impose excitatory effects is hard to predict, as shunting inhibition and GABAergic effects on spatiotemporal filtering of excitatory inputs must be considered. To evaluate at which reversal potential a net excitatory effect was imposed by GABA (EGABAThr), we performed a detailed in-silico study using simple neuronal topologies and distinct spatiotemporal relations between GABAergic and glutamatergic inputs. These simulations revealed for GABAe…

Patch-Clamp TechniquesAction potentialPhysiologyAction PotentialsSynaptic TransmissionNervous SystemBiochemistryMiceNerve FibersAnimal CellsMedicine and Health SciencesGABAergic NeuronsBiology (General)gamma-Aminobutyric AcidNeuronsMembrane potentialEcologyChemistryPyramidal CellsDepolarizationNeurochemistryNeurotransmittersCA3 Region HippocampalElectrophysiologyReceptors GlutamateComputational Theory and MathematicsModeling and SimulationExcitatory postsynaptic potentialGABAergicAnatomyCellular TypesShunting inhibitionResearch Articlemedicine.drugQH301-705.5Models NeurologicalNeurophysiologyAMPA receptorMembrane Potentialgamma-Aminobutyric acidCellular and Molecular NeuroscienceGlutamatergicSpatio-Temporal AnalysisGeneticsmedicineAnimalsComputer SimulationReceptors AMPAReversal potentialMolecular BiologyEcology Evolution Behavior and SystematicsComputational BiologyBiology and Life SciencesNeural InhibitionDendritesCell BiologyNeuronal DendritesAxonsMice Inbred C57BLAnimals Newbornnervous systemCellular NeuroscienceSynapsesDepolarizationNeuroscienceNeurosciencePLOS Computational Biology
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Dorsal root ganglia neurite outgrowth measured as a function of changes in microelectrode array resistance

2017

Current research in prosthetic device design aims to mimic natural movements using a feedback system that connects to the patient's own nerves to control the device. The first step in using neurons to control motion is to make and maintain contact between neurons and the feedback sensors. Therefore, the goal of this project was to determine if changes in electrode resistance could be detected when a neuron extended a neurite to contact a sensor. Dorsal root ganglia (DRG) were harvested from chick embryos and cultured on a collagen-coated carbon nanotube microelectrode array for two days. The DRG were seeded along one side of the array so the processes extended across the array, contacting a…

EmbryologyDistribution CurvesCell Culture Techniqueslcsh:MedicineElectrode Recording02 engineering and technologyChick Embryolaw.invention0302 clinical medicinelawAnimal CellsGanglia SpinalMedicine and Health SciencesElectric Impedancelcsh:ScienceMembrane ElectrophysiologyCells CulturedNeuronsProstheticsMultidisciplinaryChemistryMultielectrode arraymedicine.anatomical_structureBioassays and Physiological AnalysisElectrodePhysical SciencesEngineering and TechnologyCellular TypesResearch ArticleStatistical DistributionsBiotechnologyDorsumNeuritePhase contrast microscopy0206 medical engineeringNeuronal OutgrowthResearch and Analysis Methods03 medical and health sciencesmedicineNeuritesAnimalsElectrodeslcsh:RElectrophysiological TechniquesEmbryosBiology and Life SciencesCell BiologyNeuronal DendritesChick embryosProbability Theory020601 biomedical engineeringAssistive Technologiesnervous systemReference ElectrodesCellular Neurosciencelcsh:QMedical Devices and EquipmentNeuronElectronicsMicroelectrodes030217 neurology & neurosurgeryMathematicsBiomedical engineeringNeuroscienceDevelopmental BiologyPLoS ONE
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