BI-D1870 Reference: SM10-5 BI-D1870 induces apoptosis, although preferentially, in a p21-deficient background. BI-D1870 also induces a strong transcription and p53-independent accumulation of p21 protein and protects cells from gamma irradiation-induced apoptosis, driving them into senescence even in the absence of gamma irradiation.
BI-D1870 Reference: SM10-10 BI-D1870 induces apoptosis, although preferentially, in a p21-deficient background. BI-D1870 also induces a strong transcription and p53-independent accumulation of p21 protein and protects cells from gamma irradiation-induced apoptosis, driving them into senescence even in the absence of gamma irradiation.
BIRB796 Reference: SM11-2 BIRB796 has been used as part of the naive human stem cell (NSHM) medium to create naive state human cells.
BIRB796 Reference: SM11-10 BIRB796 has been used as part of the naive human stem cell (NSHM) medium to create naive state human cells.
BIRB796 Reference: SM11-25 BIRB796 has been used as part of the naive human stem cell (NSHM) medium to create naive state human cells.
BIRB796 Reference: SM11-50 BIRB796 has been used as part of the naive human stem cell (NSHM) medium to create naive state human cells.
BIRB796 Reference: SM11-100 BIRB796 has been used as part of the naive human stem cell (NSHM) medium to create naive state human cells.
BIX01294 Trihydrochloride Hydrate Reference: SM12-2 BIX01294 modulates H3K9me2 levels in mammalian cells and potentiates induction of pluripotent stem cells from somatic cells in-vitro.
BIX01294 Trihydrochloride Hydrate Reference: SM12-10 BIX01294 modulates H3K9me2 levels in mammalian cells and potentiates induction of pluripotent stem cells from somatic cells in-vitro.
BIX01294 Trihydrochloride Hydrate Reference: SM12-50 BIX01294 modulates H3K9me2 levels in mammalian cells and potentiates induction of pluripotent stem cells from somatic cells in-vitro.
CHIR99021 Reference: SM13-1 CHIR99021 is widely used in definitive endoderm differentiation protocols.
CHIR99021 Reference: SM13-5 CHIR99021 is widely used in definitive endoderm differentiation protocols.