Search results for "SUBCELLULAR-LOCALIZATION"

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Prox1 Is Required for Oligodendrocyte Cell Identity in Adult Neural Stem Cells of the Subventricular Zone

2016

Abstract Adult neural stem cells with the ability to generate neurons and glia cells are active throughout life in both the dentate gyrus (DG) and the subventricular zone (SVZ). Differentiation of adult neural stem cells is induced by cell fate determinants like the transcription factor Prox1. Evidence has been provided for a function of Prox1 as an inducer of neuronal differentiation within the DG. We now show that within the SVZ Prox1 induces differentiation into oligodendrocytes. Moreover, we find that loss of Prox1 expression in vivo reduces cell migration into the corpus callosum, where the few Prox1 deficient SVZ-derived remaining cells fail to differentiate into oligodendrocytes. Thu…

0301 basic medicineAdult neurogenesisMice0302 clinical medicineNeural Stem CellsCell MovementLateral VentriclesPromoter Regions GeneticCells CulturedMOUSE-BRAINReceptors NotchOligodendrocytesNeurogenesisCell DifferentiationLINEAGEAnatomyOlfactory BulbNeural stem cellCell biologyNeuroepithelial cellAdult Stem CellsOligodendrogliaDIFFERENTIATIONEnhancer Elements Geneticmedicine.anatomical_structureGene Knockdown TechniquesMolecular MedicineSPINAL-CORDStem cellSUBCELLULAR-LOCALIZATIONProtein BindingAdult stem cellOLIG2NeurogenesisSubventricular zoneBiology03 medical and health sciencesNeurosphereProx1medicineAnimalsCell LineageOLFACTORY-BULBBody PatterningHomeodomain ProteinsTumor Suppressor ProteinsCell BiologyMAMMALIAN BRAINOligodendrocyte Transcription Factor 2030104 developmental biologyNeuropoiesisPROGENITOR CELLSGene Expression Regulationnervous system030217 neurology & neurosurgeryDevelopmental BiologyStem Cells
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Post-translational modifications in the survival motor neuron protein

2004

Spinal muscular atrophy (SMA) is an autosomal recessive disease characterized by a progressive loss of the spinal motoneurons. The SMA-determining gene has been termed survival motor neuron (SMN) and is deleted or mutated in over 98% of patients. The encoded gene product is a protein expressed as different isoforms. In particular, we showed that the rat SMN cDNA produces two isoforms with Mr of 32 and 35 kDa, both localized in nuclear coiled bodies, but the 32 kDa form is also cytoplasmic, whereas the 35 kDa form is also microsomal. To determine the molecular relationship between these two isoforms and potential post-translational modifications, we performed transfection experiments with a …

INVOLVEMENTFORMSPRODUCTBiochemistryMiceChlorocebus aethiopsProtein IsoformsPhosphorylationCyclic AMP Response Element-Binding ProteinSMN PROTEINCells CulturedMotor NeuronsSPINAL MUSCULAR-ATROPHYRNA-Binding ProteinsSMN Complex Proteins3T3 CellsTransfectionmedicine.anatomical_structureSpinal CordCOS CellsSUBCELLULAR-LOCALIZATIONEXPRESSIONGene isoformRecombinant Fusion ProteinsBiophysicsNerve Tissue ProteinsBiologyMuscular Atrophy SpinalGene productSMN Complex ProteinsComplementary DNAmedicineAnimalsHumansMolecular BiologyCell BiologySpinal muscular atrophyMotor neuronmedicine.diseaseSurvival of Motor Neuron 1 ProteinMolecular biologyRatsnervous system diseasesMolecular WeightSEVERITYnervous systemBODIESProtein Processing Post-TranslationalDETERMINING GENEImmunostainingBiochemical and Biophysical Research Communications
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