StemRNA™ Sensory Neurons
RCDN004N
Brand: StemRNA
Frozen human iPSC-derived neurons for high throughput and high content assays.
Currency:
Product name | Product code | Pack size | Price | Price (USD) | Price (GBP) | Price (EUR) |
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StemRNA™ Sensory Neurons | RCDN004N | 1 × 10⁶ cells | (select above) | $ Ask | £ Ask | € Ask |
Note: prices shown do not include shipping and handling charges.
Product Information
Recommended Products
- Sensory Neuron Culture Medium RCDN103
iPSC-derived Sensory Neurons
Frozen human iPSC-derived neurons for high throughput and high content assays
Please Enquire for Price orders-us@reprocell.com
Sensory neurons transmit pain signals generated by trauma, temperature, or chemicals to the central nervous system. Primary afferent nerves, evoked by non-nociceptive and nociceptive stimuli, reside in the dorsal root ganglion (DRG) of the spinal cord. REPROCELL has developed an alternative sensory neuron model using human-derived induced pluripotent stem cells (iPSC) to negate accessibility issues and improve ease of culture. These cells' expression of sensory markers was detected by immunocytochemistry. Multi-Electrode Array (MEA) analysis confirms these hiPSC-derived sensory nerves display the same functionality as primary DRG cells.
Requires Sensory Neuron Culture Medium (Cat. No. RDCN103).
StemRNA Sensory Neurons Respond to the irritant capsaicin.
StemRNA Sensory Neurons show activation with increasing temperature, while iPSC-derived cortical neurons do not.
Stemgent and the StemRNA brand name are trademarks of REPROCELL Inc., Japan.
Product Name
StemRNA Sensory Neurons
Catalog Number
RCDN004N
Size
1 vial
Storage and Stability
Store in liquid nitrogen
Brochure
- REPROCELL Stemgent StemRNA™ Sensory Neurons – iPSC-derived Neurons for Disease Modeling and Drug Screening
Additional Publications
- Hiranuma M; Okuda Y; Jujii Y; Richard J-P; Watanae T. Characterization of human iPSC-derived sensory neurons and their functional assessment using multi electrode array. Sci Rep 14:6011 (2024).