Cell Metabolism
Living organisms maintain cellular homeostasis and function through coordinated cellular activity that involves sequential chemical transformations within a metabolic network. Cell metabolism is closely connected to processes such as cell proliferation, growth arrest, differentiation and apoptosis. Researchers can save up to 50% on cell metabolism products from Hello Bio - they are up to half the price of other suppliers.Â
View resources: Amyloid-β | Autophagy | DNA / RNA & protein synthesis | Oxidative phosphorylation | Bioactive metabolites | Ubiquitin proteasome system (UPS)
EC 23 (HB2592)
Description:Synthetic retinoid. Induces neural differentiation of hESCs.
Purity:>99%
FH 1 (HB3565)
Description:iPSC-derived hepatocyte differentiation and maturation enhancer
Purity:>99%
(Z)-4-Hydroxytamoxifen (Z-4-OHT) (HB2508)
Description:Synthetic estrogen receptor ligand. Widely used in genome engineering (e.g. CreER/ CRISPR-Cas9).
Purity:>98%
- Description:
Synthetic estrogen receptor ligand. Widely used in genome engineering (e.g. CreER/ CRISPR-Cas9).
Purity:>98%
- Description:
Estrogen receptor ligand. For inducible genome manipulation (e.g. Cre-LoxP (CreER)/ TRAP/ CRISPR-Cas9).
Purity:>98%
I-BET 151 hydrochloride (HB1446)
Description:BET bromodomain inhibitor, also promotes differentiation of hiPSCs into megakaryocytes
Purity:>98%
ITD 1 (HB3446)
Description:Selective TGF-β signaling inhibitor. Induces cardiomyocyte differentiation in ESCs.
Purity:>98%
IWP 4 (HB3066)
Description:Potent Wnt/β-catenin signaling inhibitor. Induces cardiomyocyte differentiation of hESCs and iPSCs.
Purity:>98%
KY 02111 (HB3465)
Description:Wnt signaling inhibitor. Promotes differentiation of hESCs and iPSCs into cardiomyocytes.
Purity:>99%