Nuclear Receptors
Nuclear hormone receptors (nuclear receptors) are specialised transcription factors which bind to specific sequences of DNA of particular target genes. They regulate transcription of these target genes in response to a variety of endogenous ligands. Nuclear receptors are classified into two major subfamilies: steroid and non-steroid hormone receptors. Steroid hormone receptors include receptors for estrogen (ER), androgen, glucocorticoid, mineralocorticoid and progesterone. Examples of non-steroid hormone receptors include thyroid receptors, retinoic acid receptors and peroxisome proliferator-activated receptors (PPAR). Researchers can save up to 50% on nuclear hormone receptor agonists, antagonists and modulators from Hello Bio - they are up to half the price of other suppliers.
FH 1 (HB3565)
Description:iPSC-derived hepatocyte differentiation and maturation enhancer
Purity:>99%
FK 506 (HB0289)
Description:Potent calcineurin phosphatase 2B inhibitor. Enhances osteoblastic differentiation in mesenchymal cells.
Purity:>99%
Fluoxetine hydrochloride (HB1600)
Description:Selective 5-HT uptake inhibitor. Affects differentiation of NSCs.
Purity:>98%
Forskolin (HB1348)
Description:Cell permeable, reversible adenylyl cyclase activator. Neuronal differentiation inducer. Used in production of liver organoids.
Purity:>98%
I-BET 151 hydrochloride (HB1446)
Description:BET bromodomain inhibitor, also promotes differentiation of hiPSCs into megakaryocytes
Purity:>98%
IBMX (HB3000)
Description:Non-selective, competitive cAMP and cGMP PDE inhibitor. Facilitates neural progenitor cell differentiation.
Purity:>98%
ISX 9 (HB3401)
Description:Neurogenic agent. Induces SVZ progenitor neuronal differentiation and cardiomyogenic differentiation.
Purity:>99%
ITD 1 (HB3446)
Description:Selective TGF-β signaling inhibitor. Induces cardiomyocyte differentiation in ESCs.
Purity:>98%