2017
Examination of Mitochondrial Ion Conductance by Patch Clamp in Intact Neurons and Mitochondrial Membrane Preparations
Jonas E, Mnatsakanyan N. Examination of Mitochondrial Ion Conductance by Patch Clamp in Intact Neurons and Mitochondrial Membrane Preparations. Neuromethods 2017, 123: 211-238. DOI: 10.1007/978-1-4939-6890-9_11.Peer-Reviewed Original ResearchMitochondrial calcium uniporterMitochondrial permeability transition poreInner membraneCell deathOuter membraneIon channelsBcl-2 family proteinsNumerous cellular processesMitochondrial ion channelsComplex of proteinsChannel activityTrafficking of metabolitesPro-death stimuliMitochondrial membrane preparationsPermeability transition poreIon channel activityMembrane compartmentalizationIon channel complexDeath channelATP synthaseCellular processesFamily proteinsCalcium uniporterMolecular participantsATP production
2012
Lessons from the endothelial junctional mechanosensory complex
Conway D, Schwartz MA. Lessons from the endothelial junctional mechanosensory complex. F1000 Biology Reports 2012, 4: 1. PMID: 22238515, PMCID: PMC3251317, DOI: 10.3410/b4-1.Peer-Reviewed Original Research
2009
Molecular participants in mitochondrial cell death channel formation during neuronal ischemia
Jonas EA. Molecular participants in mitochondrial cell death channel formation during neuronal ischemia. Experimental Neurology 2009, 218: 203-212. PMID: 19341732, PMCID: PMC2710418, DOI: 10.1016/j.expneurol.2009.03.025.Peer-Reviewed Original ResearchConceptsBcl-2 family proteinsCell deathFamily proteinsInner membraneOuter membraneIon channelsMolecular participantsNumerous cellular processesMitochondrial ion channelsComplex of proteinsSpecialized physiological functionsMembrane compartmentalizationIon channel complexCellular processesPhysiological functionsIon channel conductanceCytosolic metabolitesChannel complexProteinMembrane potentialChannel formationMembraneChannel conductanceSynaptic transmissionVDAC
2005
Mutations in Drosophila sec15 Reveal a Function in Neuronal Targeting for a Subset of Exocyst Components
Mehta SQ, Hiesinger PR, Beronja S, Zhai RG, Schulze KL, Verstreken P, Cao Y, Zhou Y, Tepass U, Crair MC, Bellen HJ. Mutations in Drosophila sec15 Reveal a Function in Neuronal Targeting for a Subset of Exocyst Components. Neuron 2005, 46: 219-232. PMID: 15848801, DOI: 10.1016/j.neuron.2005.02.029.Peer-Reviewed Original ResearchConceptsExocyst componentsComplex of proteinsCell polaritySec15Specific cell adhesionSpecific proteinsMutant neuronsSubcellular distributionCell adhesionCell lethalityExocystNeuronal targetingSec5Neurite outgrowthSynaptic specificityCell viabilityProteinSeparable functionsSec6Sec8SubcomplexMislocalizationYeastGenesComponents persist
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