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  • Differentiated neural stem cells
  • Zebrafish hindbrain showing the ventricular zone, where cells are proliferating, in red, and the zone of differentiating neurons in green.
  • Neurons derived from human neural stem cells. The green staining highlights the typical appearance of differentiated nerve cells. Cells such as these could form the basis of future treatments for degenerative brain diseases such as Parkinson's and Alzheimer's.
  • Neurons derived from neural stem cells
  • Neurons derived from neural stem cells
  • Transplanted neural stem cells giving rise to neurons
  • Clonal differentiation in the mouse embryo
  • Neurons and astrocytes from neural stem cells
  • Differentiating neuroblast
  • Differentiating neuroblasts
  • Neurons derived from neural stem cells
  • Astrocytes and oligodendrocytes from neural stem cells
  • Astrocytes and oligodendrocytes from neural stem cells
  • Astrocytes and oligodendrocytes from neural stem cells
  • Brain cancer stem cells
  • Neurons derived from ES cells
  • Seminiferous tubule
  • Mouse embryonic stem cells
  • Neurons and oligodendrocytes
  • Neurons and oligodendrocytes
  • Muscle biopsy showing individual fibre- TS
  • Neurons derived from human neural stem cells.
  • Brain cancer stem cells stained for vimentin (red).
  • Neurons and oligodendrocytes
  • Mouse embryonic stem cells
  • Generation of oligodendrocytes
  • Oligodendrocyte precursor cells (red and yellow) in their zone of origin within the spinal cord.
  • Oligodendrocyte precursor cells (orange and yellow) in their zone of origin within the spinal cord.
  • Oligodendrocyte precursor cells (red and yellow) in their zone of origin within the spinal cord.
  • Neural stem cells transplanted into a mouse brain