Topographic Restriction of TAG-1 Expression in the Developing Retinotectal Pathway and Target Dependent Reexpression during Axon Regeneration
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TAG-1, a glycosylphosphatidyl inositol (GPI)-anchored protein of the immunoglobulin (Ig) superfamily, exhibits an unusual spatiotemporal expression pattern in the fish visual pathway. Using in situ hybridization and new antibodies (Abs) against fish TAG-1 we show that TAG-1 mRNA and anti-TAG-1 staining is restricted to nasal retinal ganglion cells (RGCs) in 24- to 72-h-old zebrafish embryos and in the adult, continuously growing goldfish retina. Anti-TAG-1 Abs selectively label nasal RGC axons in the nerve, optic tract, and tectum. Axotomized RGCs reexpress TAG-1, which occurs as late as 12 days after optic nerve lesion, when regenerating RGC axons arrive in the tectum, suggesting TAG-1 reexpression is target contactdependent. Accordingly, TAG-1 reexpression ceases upon interruption of the regenerating projection by a second lesion. The topographic restriction of TAG-1 expression and its target dependency during regeneration suggests that TAG-1 might play a role in the retinotopic organization and restoration of the retinotectal pathway.
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LANG, Dirk M., James T. WARREN, Christiane KLISA, Claudia STÜRMER, 2001. Topographic Restriction of TAG-1 Expression in the Developing Retinotectal Pathway and Target Dependent Reexpression during Axon Regeneration. In: Molecular and Cellular Neuroscience. 2001, 17(2), pp. 398-414. ISSN 1044-7431. Available under: doi: 10.1006/mcne.2000.0936BibTex
@article{Lang2001Topog-8760, year={2001}, doi={10.1006/mcne.2000.0936}, title={Topographic Restriction of TAG-1 Expression in the Developing Retinotectal Pathway and Target Dependent Reexpression during Axon Regeneration}, number={2}, volume={17}, issn={1044-7431}, journal={Molecular and Cellular Neuroscience}, pages={398--414}, author={Lang, Dirk M. and Warren, James T. and Klisa, Christiane and Stürmer, Claudia} }
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