Product Description
Human Inferior Mesenteric Plexus Neuronal Stem Cell - Frozen Vial
Also Avaliable as:
T25 plated cells shipped at room temperature.
T75 plated cells shipped at room temperature.
T150 plated cells shipped at room temperature. Cat#36120-47-T150
T225 plated cells shipped at room temperature. Cat#36120-47-T225
120 Population doublings or up to 12 passages.
One million viable cells upon thawing of frozen cells, frozen vial of cells shipped in dry-ice.
This product would require pre-coated flasks with Human Inferior Mesenteric Plexus Neuronal Stem Cell Extra-cellular Matrix and Human Inferior Mesenteric Plexus Neuronal Stem Cell Media with Serum S, and for serum free conditions Cat# M36120-47 is required provided the cells are weaned off the serum, as indicated in their specified protocol provided with purchase of these cells.
In order to freeze these cells, the freezing media recommended for this product is Cat# M36120-47FM.
Source: Human Inferior Mesenteric Plexus tissue.
Positive Markers: Map2, Nestin, Neurofilament, Neurogenin-3, Beta-III tubulin, alphainternexin, HOXA1
For non-academic use please inquire for pricing.
Cells are only guaranteed with purchase of Celprogen Media, Extra Cellular Matrix, Trypsin EDTA, 1X PBS, and freezing media for the appropriate cell culture, for 30 days from the date of shipment.
Publication
Poster - Human Triple Negative Breast Cancer Stem Cells Publication
Human HER2+ Breast Cancer Stem Cells Publication
Poster - Human HER2+ Breast Cancer Stem Cells Publication
Poster - Drug Discovery Therapeutics for Triple Negative Breast Cancer Patients Publication
Drug Discovery Therapeutics for Triple Negative Breast Cancer Patients Publication
The Role of CXCR3-Ligand Axis in Cancer Aryl Hydrocarbon Receptor is a Transcriptional Activator of the Human Breast Cancer Resistance Protein, BCRP,ABCG2
BCTT-85202-identification-of-genes-involved-in-breast-cancer-and-breast
Correlation between Cancer Stem Cells and Circulating Tumor Cells and Their Value
Optimization of siRNA Transfection for Breast and Glioa Cancer Cell Cultures
Phenotypic Plasticity in Normal Breast Derived Epithelial Cells