Publikation: Two populations of glial cells from fish optic nerve/tract with distinct electrophysiological properties
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The electrophysiological properties of the two major glial cell types in cultures from the regenerating goldfish optic nerve/tract were studied with patch-clamp techniques. Spindle-shaped cells express myelin proteins. These oligodendrocyte-like cells possess outwardly rectifying currents, do not show glutamate activated currents and are rarely electrically coupled to neighboring cells. Cells of epitheloid morphology probably represent astrocytes. They are GFAP-positive and do not exhibit myelin proteins. These cells have glutamate activated currents, display a linear current to voltage relationship and are extensively electrically coupled thus displaying properties similar to mammalian astrocytes.
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HOPPE, Dorothe, Martin BASTMEYER, Gabriela von BLANKENFELD, Helmut KETTENMANN, Claudia STÜRMER, 1991. Two populations of glial cells from fish optic nerve/tract with distinct electrophysiological properties. In: Experimental Brain Research. 1991, 87(2), pp. 383-388. ISSN 0014-4819. eISSN 1432-1106. Available under: doi: 10.1007/BF00231855BibTex
@article{Hoppe1991popul-7610, year={1991}, doi={10.1007/BF00231855}, title={Two populations of glial cells from fish optic nerve/tract with distinct electrophysiological properties}, number={2}, volume={87}, issn={0014-4819}, journal={Experimental Brain Research}, pages={383--388}, author={Hoppe, Dorothe and Bastmeyer, Martin and Blankenfeld, Gabriela von and Kettenmann, Helmut and Stürmer, Claudia} }
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