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Here are iPSCs made from fibroblasts cells derived via nuclear genome transfer by Daniel Paull. iPSCs stained for the nuclear transcription factor SOX2 and the surface marker Tra-1-81. . Stem cells are a fascinating and powerful type of cell that can...

Here are iPSCs made from fibroblasts cells derived via nuclear genome transfer by Daniel Paull. iPSCs stained for the nuclear transcription factor SOX2 and the surface marker Tra-1-81.
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Stem cells are a fascinating and powerful type of cell that can self-renew indefinitely, or give rise to differentiated cell types. At NYSCF, we believe that research utilizing the unique and powerful properties of stem cells will accelerate new treatments and cures for the most devastating diseases of our time. To learn more about our research, click link in bio.
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#stemcellresearch #stemcells #cells #instascience #sciart #nyc #missionbound (at New York, New York)

Here are iPSCs made from fibroblasts cells derived via nuclear genome transfer by Daniel Paull. iPSCs stained for the nuclear transcription factor SOX2 and the surface marker Tra-1-81. Stem cells are a fascinating and powerful type of cell that can...

Here are iPSCs made from fibroblasts cells derived via nuclear genome transfer by Daniel Paull. iPSCs stained for the nuclear transcription factor SOX2 and the surface marker Tra-1-81.

Stem cells are a fascinating and powerful type of cell that can self-renew indefinitely, or give rise to differentiated cell types. At NYSCF, we believe that research utilizing the unique and powerful properties of stem cells will accelerate new treatments and cures for the most devastating diseases of our time. To learn more about our research, click link in bio.

#stemcellresearch #stemcells #cells #instascience #sciart #nyc #missionbound (at New York, New York)

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