Journal article

Electrical and neurotransmitter activity of mature neurons derived from mouse embryonic stem cells by Sox-1 lineage selection and directed differentiation

RJ Lang, JM Haynes, J Kelly, J Johnson, J Greenhalgh, C O'Brien, EM Mulholland, L Baker, M Munsie, CW Pouton

European Journal of Neuroscience | WILEY | Published : 2004

DOI: 10.1111/j.1460-9568.2004.03782.x

Abstract

Sx1TV2/16C is a mouse embryonic stem (ES) cell line in which one copy of the Sox1 gene, an early neuroectodermal marker, has been targeted with a neomycin (G418) selection cassette. A combination of directed differentiation with retinoic acid and G418 selection results in an enriched neural stem cell population that can be further differentiated into neurons. After 6-7 days post-plating (D6-7PP) most neurons readily fired tetrodotoxin (TTX)-sensitive action potentials due to the expression of TTX-sensitive Na+ and tetraethylammonium (TEA)-sensitive K+ channels. Neurons reached their maximal cell capacitance after D6-7PP; however, ion channel expression continued until at least D21PP. The per..

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University of Melbourne Researchers

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Keywords

3209 Neurosciences
Murine Stem Cell Derived Neurons
Release
In-Vitro
Regenerative Medicine
Neurosciences & Neurology
Cardiomyocytes
Neural Precursors
Stem Cell Research
Dopaminergic-Neurons
Receptors
Synapses
Rat
Culture
Stem Cell Research - Embryonic - Non-Human
Life Sciences & Biomedicine
Generation
Science & Technology
Glutamine Receptors and Synapses
32 Biomedical and Clinical Sciences
Neurological
1.1 Normal Biological Development and Functioning
Neurosciences
Na+ & K+ Channels
Patch Clamp
Stem Cell Research - Embryonic - Human
5.2 Cellular and Gene Therapies
Brain Disorders