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- SynFire® Glutamatergic Induced Neuron Kit
SynFire® Glutamatergic Induced Neuron Kit
NC1001-10 / NC1001-20 / NC1001-50 / NC1001-60
Brand: SynFire® by NeuCyte Labs®
Co-culture kits containing glutamatergic induced neurons, astroglia, and all of the media necessary to establish a co-culture model for functional neuron studies. Available in two sizes, small (Cat. No. NC1001-10) and large (Cat. No. NC1001-50).
Note: prices shown do not include shipping and handling charges.
Product code | Pack size | The Americas | UK, Europe, Middle East, Africa | ||
---|---|---|---|---|---|
(USD) | UK (GBP) | Europe (EUR) | |||
NC1001-10 |
1 kit (small) |
$ 1,795.00 |
£ 1478.10 |
€ 1,705.50 |
|
USA store |
The Americas | ||
---|---|---|
Product code | Pack size | USD |
NC1001-10 |
1 kit (small) |
$ 1,795.00 |
USA store |
UK, Europe, Middle East, Africa | ||
---|---|---|
Product code | Pack size | UK (GBP) |
NC1001-10 |
1 kit (small) |
£ 1478.10 |
Europe (EUR) | ||
NC1001-10 |
1 kit (small) |
€ 1,705.50 |
Human SynFire Glutamatergic Induced Neurons co-culture studies
Co-Culture kits contain GABAergic, Astroglia, and all of the media necessary to establish a co-culture model for functional neuron studies. Kits containing glutamatergic and GABAergic neurons, astroglia and media Cat. No. NC1010-1.5), or only GABAergic neurons, astroglia, and media (Cat. No. NC1002-10) are also available.
Glutamatergic Induced Neuron Kits are available in two sizes, small (Cat. No. NC1001-10) and large (Cat. No. NC1001-50). In addition, the Glutamergic Induced Neurons are available separately in small (Cat. No. NC1001-20) and large (Cat. No. MC1001-60) sizes. Please see the specification for kit contents.
SynFire iNs (Induced Neurons) are suitable for a variety of biochemical assays. For example, the effect of compounds on neuronal survival, axonal outgrowth, or dendritic arborization can be measured by standard assessment of viability, or image-based analysis of labeled cells, respectively. When co-cultured with glial cells, effects on synapse formation and composition, transcriptional programs, and electrophysiology can be tested. Neuronal subtypes can be mixed in different ratios for making a defined co-culture for different experimental purposes.