Day In Vitro (DIV) 0: Electroporation for Overexpression of Hedgehog Receptor: pEGFP-Smo
2:28
Results: Assessment of Overexpression Efficiency and the Effects of SAG Treatment on Primary Cilium-Dependent Hedgehog Signaling Pathway
3:23
Conclusion
Transcribir
This protocol demonstrates a straightforward in vitro genetic modification method for the molecular study of the primary cilium-dependent signaling pathway in the primary granule cell precursor cultures. Due to the cost, low viability, and poor ef
Inicia sesión o comienza tu prueba gratuita para acceder a este contenido
Here, we present a reproducible in vitro electroporation protocol for genetic manipulation of primary cerebellar granule cell precursors (GCPs) that is cost-effective, efficient, and viable. Moreover, this protocol also demonstrates a straightforward method for the molecular study of primary cilium-dependent Hedgehog signaling pathways in primary GCP cells.