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Compounds for Induced Pluripotent Stem Cells: Small Molecules and Peptides

Induced pluripotent stem (iPS) cells were first generated from fibroblasts by exogenously expressing four transcription factors: KLF4, c-Myc, Oct-4, and SOX2. However, somatic cell reprogramming can be inefficient, and the use of viral vectors can complicate their therapeutic potential. Thus, bioactive small molecules are important tools for optimizing iPS cell generation and research. Compounds such as Thiazovivin can be added to culture media to enhance the efficiency of iPS cell generation. Chromatin modifying small molecules, such as those that target histone deacetylases (HDACs) or methyltransferases, can also aid in somatic cell reprogramming by opening chromatin and promoting the transcription of pluripotency genes. In fact, following epigenetic changes induced by Valproic Acid, a HDAC inhibitor, iPS cells can be generated from somatic cells with the introduction of only Oct-4 and SOX2. Recent reports indicate that small molecules can also replace the function of particular transcription factors. For example, Kenpaullone, a Cyclin Dependent Kinase and GSK-3 beta inhibitor, can replace KLF4. Tocris provides a complete range of small molecules to optimize somatic cell reprogramming and reduce the need for viral-mediated transduction of transcription factors.

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42 results for "Compounds for Induced Pluripotent Stem Cells Small Molecules and Peptides" in Products

42 results for "Compounds for Induced Pluripotent Stem Cells Small Molecules and Peptides" in Products

Compounds for Induced Pluripotent Stem Cells: Small Molecules and Peptides

Induced pluripotent stem (iPS) cells were first generated from fibroblasts by exogenously expressing four transcription factors: KLF4, c-Myc, Oct-4, and SOX2. However, somatic cell reprogramming can be inefficient, and the use of viral vectors can complicate their therapeutic potential. Thus, bioactive small molecules are important tools for optimizing iPS cell generation and research. Compounds such as Thiazovivin can be added to culture media to enhance the efficiency of iPS cell generation. Chromatin modifying small molecules, such as those that target histone deacetylases (HDACs) or methyltransferases, can also aid in somatic cell reprogramming by opening chromatin and promoting the transcription of pluripotency genes. In fact, following epigenetic changes induced by Valproic Acid, a HDAC inhibitor, iPS cells can be generated from somatic cells with the introduction of only Oct-4 and SOX2. Recent reports indicate that small molecules can also replace the function of particular transcription factors. For example, Kenpaullone, a Cyclin Dependent Kinase and GSK-3 beta inhibitor, can replace KLF4. Tocris provides a complete range of small molecules to optimize somatic cell reprogramming and reduce the need for viral-mediated transduction of transcription factors.

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Potent, selective inhibitor of TGF-βRI, ALK4 and ALK7

SB 431542 synthesized to cGMP guidelines

Highly selective GSK-3 inhibitor; acts as Wnt activator

CHIR 99021 synthesized to cGMP guidelines

Selective inhibitor of TGF-βRI, ALK4 and ALK7

EZH2 histone methyltransferase inhibitor

PORCN inhibitor; inhibits Wnt processing and secretion

Potent tankyrase inhibitor

Enhances the generation of iPSCs; increases reprogramming efficiency

p53 inhibitor. Also aryl hydrocarbon receptor agonist

Potent inhibitor of Wnt/β-catenin signaling

Prototypical PI 3-kinase inhibitor; also inhibits other kinases

Inhibits canonical Wnt signaling. Promotes differentiation of human ESCs and iPSCs into cardiomyocytes

Histone deacetylase inhibitor

Histone deacetylase inhibitor

Potent and selective inhibitor of TGF-βRI

ROCK inhibitor; improves the efficiency of fibroblast reprogramming and induction of iPSCs

Wnt/β-catenin signaling inhibitor; axin stabilizer

Potent inhibitor of MEK1/2

T3 synthesized to Ancillary Material Grade

XAV 939 synthesized to cGMP guidelines

CK1 inhibitor

Sterile-filtered 10 mM solution of CHIR 99021 pre-dissolved in DMSO

Inhibitor of Hedgehog (Hh) signaling

endo-IWR 1 synthesized to Ancillary Material Grade

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