Biochemical Modulators for Precise Stem Cell Control
Did you know that biochemical modulators can be used to control every key stage of stem cell culture?
Precisely selected small molecules enable robust and reproducible control of stem cell fate across all critical stages of in vitro culture, from initial cell generation and large-scale expansion to long-term survival, lineage-specific differentiation, and cellular reprogramming.
By targeting defined intracellular signaling pathways and epigenetic regulators, biochemical modulators provide a high level of experimental precision while reducing variability associated with growth factor–based systems.
A broad portfolio of stem cell culture reagents and biochemical modulators is available, including compounds that regulate:
Small molecules that enhance somatic cell reprogramming efficiency, thereby accelerating the induction of pluripotency.
Compounds that stimulate controlled cell cycle progression and metabolic activity while minimizing stress-induced senescence.
Pathway-specific inhibitors and activators that preserve pluripotency networks and prevent spontaneous differentiation during culture.
Highly selective regulators that enable transient or sustained pathway activation/inhibition to direct stem cell identity and lineage commitment.
Differentiation/dedifferentiation
Small molecules that replace or complement cytokines to drive reproducible lineage specification or revert committed cells to a more plastic state.
Explore advanced stem cell modulators and accelerate your research with reliable, publication-ready biochemical tools.
If you don't find the specific product you need, we can still provide it upon request.