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NEUR1001
Mixed neurons, CTRL Line
IPSC derived
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About This Item
UNSPSC-Code:
12352200
Empfohlene Produkte
Biologische Quelle
human
Form
liquid
Wachstumsmodus
Adherent
Karyotyp
2n=46
Morphologie
elongated/polarized, neuronal
Versandbedingung
dry ice
Lagertemp.
−196°C
Beschreibung der Zelllinie
Control line derived from the parental XCL-1, an integration-free iPSC line
Anwendung
These products provide unique and versatile tools for the study of central nervous system (CNS) disorders, such as Alzheimer′s disease (AD), Parkinson′s disease (PD), autism, schizophrenia, and amyotrophic lateral sclerosis (ALS), as well as for drug screening and toxicology applications in the neural space.
Leistungsmerkmale und Vorteile
This product contains cryo-preserved, pre-differentiated mixed population neurons derived from a footprint-free, karyotype normal human iPSC line. It was designed for customers to generate mature neurons using the optimized maturation medium and supplement (NEUR1050, NEUR1051 sold separately). Mature neurons can be obtained within 8 days. The neurons can be seeded on various culture vessel formats including 96 well plates on either glass or plastic surfaces and cultured as adherent cells. Shortly after seeding, the cells proliferate slightly for up to 3 days and show extensive neurite outgrowth and proper neuronal morphology. In general, at 8 days post-seeding, the cell population will contain ≥98% neurons and ≤1% Glial Fibrillary Acidic Protein (GFAP) positive astrocytes.
Nährmedium
User must also purchase Neuronal Maturation Medium, NEUR1050 (50mL) or NEUR1051 (250mL). Sold separately.
Subkultur-Routine
No subculture routine is necessary. See technical bulletin for additional details.
Lagerklassenschlüssel
10 - Combustible liquids
WGK
WGK 3
Flammpunkt (°F)
Not applicable
Flammpunkt (°C)
Not applicable
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Anastasia Efthymiou et al.
Journal of biomolecular screening, 19(1), 32-43 (2013-09-11)
Rapid and effective drug discovery for neurodegenerative disease is currently impeded by an inability to source primary neural cells for high-throughput and phenotypic screens. This limitation can be addressed through the use of pluripotent stem cells (PSCs), which can be
Yiping Yan et al.
Stem cells translational medicine, 2(11), 862-870 (2013-10-12)
Human pluripotent stem cells (hPSCs), including human embryonic stem cells and human induced pluripotent stem cells, are unique cell sources for disease modeling, drug discovery screens, and cell therapy applications. The first step in producing neural lineages from hPSCs is
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