| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 4353959 | Progress in Neurobiology | 2007 | 15 Pages |
Abstract
Here, we review those studies in which radial glia have been investigated in vitro following isolation from foetal tissues or differentiation of embryonic stem (ES) cells. We discuss how these approaches, together with an ability to expand radial glia-like neural stem (NS) cell lines, may offer unique opportunities in basic and applied neurobiology.
Keywords
EGFEC cellsGLASTSVZFGFBLBPICMGFPPDGFRαGFAPFACSLIFDRGgamma-aminobutyric acidHuntington's diseaseInner cell massembryoid bodyShhfluorescence-activated cell sortingCNSRetinoic acidES cellsembryonic carcinoma cellsEmbryonic stem cellsNeural stem cellscentral nervous systemperipheral nervous systemsonic hedgehogepidermal growth factorleukemia inhibitor factorfibroblast growth factorBMPNeurogenesisNEPglial fibrillary acid proteingreen fluorescent proteinBone morphogenetic proteinbrain lipid-binding proteinPNSIn vitro cell cultureGABAdorsal root gangliaradial glia
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Authors
Steven M. Pollard, Luciano Conti,