Reprogramming of Pluripotent Stem Cells
Human induced pluripotent stem (hiPS) cells are generated by reprogramming somatic cells to a pluripotent state, through the transient overexpression of key reprogramming factors.
Explore the resources below for information on the reprogramming of hPSCs.
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ReproRNA™-OKSGM: Reprogramming Vector for Human iPS Cell Generation
This technical video demonstrates how to reprogram fibroblasts in ReproTeSR™ medium using ReproRNA™-OKSGM. ReproRNA™-OKSGM is a non-integrating, self-replicating RNA reprogramming vector for generating human induced pluripotent (iPS) cells.
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Tips for Reprogramming Somatic Cells using TeSRâ„¢-E7â„¢Tips to help resolve 2 common issues encountered when reprogramming fibroblasts using TeSRâ„¢-E7â„¢ -
Optimizing the Puromycin Selection Step in our ReproRNAâ„¢-OKSGM WorkflowTechnical tip from our dedicated team of Product and Scientific Support specialists -
Extending the Life of a CFU AssayTechnical tip from our dedicated team of Product and Scientific Support specialists -
How to Reprogram Fibroblasts into Human Induced Pluripotent Stem (iPS) Cells Using ReproRNAâ„¢-OKSGMHow to reprogram fibroblasts in using ReproRNAâ„¢-OKSGM is a non-integrating, self-replicating RNA reprogramming vector for generating human induced pluripotent stem (iPS) cells -
How to Harvest Reprogrammed iPS Cell Colonies in TeSRâ„¢-E7â„¢ Reprogramming Culture MediumCharacteristics of reprogrammed iPS cell colonies and provides instructions for manually harvesting putative iPS cell colonies for replating and further expansion -
Pluripotent Stem Cell BiologyNuclear transfer, reprogramming and cell fusion to induce pluripotency in somatic cells -
Small Molecules, Big Impact in Pluripotent Stem Cell ResearchOverview of signaling pathways and small molecules in pluripotent stem cell research
