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#neuralstemcells — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #neuralstemcells, aggregated by home.social.

  1. #NeuralStemCells (NSCs) & ependymal cells (ECs) are derived from #RadialGlialCells. This study uses #scRNAseq to characterize cell fate trajectories in the developing #VentricularZone, identifying TFEB as a regulator of the NSC/EPC balance @PLOSBiology plos.io/3HbrsJG

  2. #NeuralStemCells (NSCs) & ependymal cells (ECs) are derived from #RadialGlialCells. This study uses #scRNAseq to characterize cell fate trajectories in the developing #VentricularZone, identifying TFEB as a regulator of the NSC/EPC balance @PLOSBiology plos.io/3HbrsJG

  3. #NeuralStemCells (NSCs) & ependymal cells (ECs) are derived from #RadialGlialCells. This study uses #scRNAseq to characterize cell fate trajectories in the developing #VentricularZone, identifying TFEB as a regulator of the NSC/EPC balance @PLOSBiology plos.io/3HbrsJG

  4. #NeuralStemCells (NSCs) & ependymal cells (ECs) are derived from #RadialGlialCells. This study uses #scRNAseq to characterize cell fate trajectories in the developing #VentricularZone, identifying TFEB as a regulator of the NSC/EPC balance @PLOSBiology plos.io/3HbrsJG

  5. #NeuralStemCells (NSCs) & ependymal cells (ECs) are derived from #RadialGlialCells. This study uses #scRNAseq to characterize cell fate trajectories in the developing #VentricularZone, identifying TFEB as a regulator of the NSC/EPC balance @PLOSBiology plos.io/3HbrsJG

  6. Quiescent hippocampal #NeuralStemCells (NSCs) support #neurogenesis in adulthood. This study shows that NSCs have different levels of quiescence & that Sox5 controls the balance between shallow & deep quiescence during hippocampal development @PLOSBiology plos.io/44Su34u

  7. Quiescent #NeuralStemCells (qNSCs) in the adult mouse SVZ have a limited capacity to generate #glia. This study shows that a subpopulation of multipotent qNSCs with high Gas1 expression can produce #oligodendrocytes throughout life & after demyelinating injury @PLOSBiology plos.io/4iY4nbh

  8. Quiescent #NeuralStemCells (qNSCs) in the adult mouse SVZ have a limited capacity to generate #glia. This study shows that a subpopulation of multipotent qNSCs with high Gas1 expression can produce #oligodendrocytes throughout life & after demyelinating injury @PLOSBiology plos.io/4iY4nbh

  9. Quiescent #NeuralStemCells (qNSCs) in the adult mouse SVZ have a limited capacity to generate #glia. This study shows that a subpopulation of multipotent qNSCs with high Gas1 expression can produce #oligodendrocytes throughout life & after demyelinating injury @PLOSBiology plos.io/4iY4nbh

  10. Quiescent #NeuralStemCells (qNSCs) in the adult mouse SVZ have a limited capacity to generate #glia. This study shows that a subpopulation of multipotent qNSCs with high Gas1 expression can produce #oligodendrocytes throughout life & after demyelinating injury @PLOSBiology plos.io/4iY4nbh

  11. Quiescent #NeuralStemCells (qNSCs) in the adult mouse SVZ have a limited capacity to generate #glia. This study shows that a subpopulation of multipotent qNSCs with high Gas1 expression can produce #oligodendrocytes throughout life & after demyelinating injury @PLOSBiology plos.io/4iY4nbh

  12. 🔬Its been 17 years since Dr. Sally Temple and Dr. Jeffrey Stern opened the first independent stem cell research institute in the country! Since opening, they have continued to foster the successful translation of neural stem cell discoveries to therapeutics!

    Learn more about our institution and ongoing research at zurl.co/sBj9

    #stemcellresearch #neuralstemcells #agerelatedmaculardegeneration #alzheimersdisease #parkinsonsdisease #spinalcordinjury