iPSCs & ESCs
Induced pluripotent stem cells (iPSCs) and embryonic stem cells (ESCs) are pluripotent stem cells which are self-renewing. They can develop into cells of all three germ layers. IPSCs & ESCs are used in stem cell biology, regenerative medicine, disease modeling and drug discovery. Researchers can save up to 50% on small molecules that modulate iPSC/ESC differentiation, as they are up to half the price of other suppliers.
A83-01 (HB3218)
Description:Selective TGF-βRI (ALK5), ALK4 and ALK7 inhibitor. Maintains human hiPSC self renewal, 3D growth matrix component and promotes long-term organoid growth. Aids fibroblast to NSC/cardiomyocyte reprogramming.
Purity:>98%
5-Azacytidine (HB1374)
Description:DNA methyltransferase inhibitor. Improves stem cell reprogramming efficiency and induces differentiation of MSCs into cardiomyocytes.
Purity:>98%
BIO (HB1259)
Description:Potent GSK-3α/β inhibitor. Maintains ESC self-renewal and pluripotency.
Purity:>98%
BIX 01294 (HB1413)
Description:Potent, selective GLP / G9a HMTase inhibitor. Potentiates iPSC induction.
Purity:>98%
Brefeldin A (BFA) (HB2949)
Description:Reversible protein transport inhibitor. Commonly used in cytokine staining. Enhances CRISPR-mediated HDR.
Purity:>98%
CCG 1423 (HB3389)
Description:Rho/SRF pathway inhibitor. Induces intermediate mesoderm differentiation from ESCs.
Purity:>99%
CHIR 99021 (HB1261)
Description:Potent, selective GSK3 inhibitor and Wnt signaling activator. Commonly used in organoid production and involved in reprogramming MEFs to IPSCs and fibroblasts to mature neurons.
Purity:>98%
CHIR 99021 trihydrochloride (HB1262)
Description:Potent, selective GSK3 inhibitor and Wnt signaling activator. Commonly used in organoid production and involved in reprogramming MEFs to IPSCs and fibroblasts to mature neurons. Water soluble.
Purity:>98%