The autoregulation of retinal ganglion cell number

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Ahmad, I., Dooley, C. M. and Polk, D. L (1997). Delta-1 is a regulator of neurogenesis in the vertebrate retina. Dev. Biol 185, 92-103.[Medline]

Austin, C. P., Feldman, D. E., Ida, J. A. and Cepko, C. L (1995). Vertebrate retinal ganglion cells are selected from competent progenitors by the action of Notch. Development 121, 3637-3650.[Abstract]

Backstrom, A., Soederstrom, S., Kylberg, A. and Ebendal, T (1996). Molecular cloning of the chicken trkA and its expression in early peripheral ganglia. J. Neurosci. Res 46, 67-81.

Ballesta, J., Terenghi, G., Thibault, J. and Polak, J. M (1984). Putative dopamine-containing cells in the retina of seven species demonstrated bytyrosine hydroxylase immunocytochemistry. Neuroscience 12, 1147-1156.[Medline]

Belliveau, M. J. and Cepko, C. L (1999). Extrinsic and intrinsic factors control the genesis of amacrine and cone cells in the rat retina. Development 126, 555-566.[Abstract]

Bovolenta, P., Frade, J. M., Marti, E., Rodr\222guez-Pe\226a, M. A., Barde, Y. A. and Rodr\222guez-Tebar, A (1996). Neurotrophin-3 antibodies disrupt the normal development ofthe chick retina. J. Neurosci 16, 4402-4410.[Abstract/Free Full Text]

Casademunt, E., Carter, B. D., Benzel, I., Frade, J. M., Dechant, G. and Barde, Y.-A (1999). The zinc finger protein NRIF interacts with the neurotrophin receptor p75(NTR) and participates in programmed cell death. EMBO J 18, 6050-6061.[Medline]

Das, I., Hempstead, B. L., MacLeish, P. R. and Sparrow, J. R (1997). Immunohistochemical analysis of the neurotrophins BDNF and NT-3 and their receptors trkB, trkC, and p75 in the developing chick retina. Vis. Neurosci 14, 835-842.[Medline]

de la Rosa, E. J., Arribas, A., Frade, J. M. and Rodr\222guez-Tebar, A (1994). Role of neurotrophins in the control of neural development: neurotrophin-3 promotes both neuron differentiation and survival of cultured chick retinal cells. Neuroscience 58, 347-352.[Medline]

Ebendal, T., Larhammar, D. and Persson, H (1986). Structure and expression of the chicken beta nerve growth factor gene. EMBO J 5, 1483-1487.[Medline]

Ernsberger, U., Patzke, H., Tissier-Seta, J. P., Reh, T., Goridis, C. and Rohrer, H (1995). The expression of tyrosine hydroxylase and the transcription factors cPhox-2 and Cash-1: evidence for distinct inductive steps in the differentiation of chick sympathetic precursor cells. Mech. Dev 52, 125-136.[Medline]

Frade, J. M (2000). Unscheduled cell cycle re-entry induced by NGF precedes cell death in nascent retinal neurones. J. Cell Sci 113, 1139-1148.[Abstract]

Frade, J. M. and Barde, Y. A (1998). Microglia-derived nerve growth factor causes cell death in the developing retina. Neuron 20, 35-41.[Medline]

Frade, J. M., Bovolenta, P. and Rodr\222guez-Tebar, A (1999). Neurotrophins and other growth factors in the generation of retinal neurons. Microsc. Res. Tech 45, 243-251.[Medline]

Frade, J. M., Bovolenta, P., Mart\222nez-Morales, J. R., Arribas, A., Barbas, J. A. and Rodr\222guez-Tebar, A (1997). Control of early cell death by BDNF in the chick retina. Development 124, 3313-3320.[Abstract]

Frade, J. M., Mart\222, E., Bovolenta, P., Rodr\222guez-Pe\226a, M. A., Perez-Garc\222a, D., Rohrer, H., Edgar, D. and Rodr\222guez-Tebar, A (1996). Insulin-like growth factor-I stimulates neurogenesis in chick retina by regulating expression of the alpha 6 integrin subunit. Development 122, 2497-2506.[Abstract]

Frade, J. M., Rodr\222guez-Tebar, A. and Barde, Y.-A (1996). Induction of cell death by endogenous nerve growth factor through its p75 receptor. Nature 383, 166-168.[Medline]

Hamburger, V. and Hamilton, H (1951). A series of normal stages in the development of chick embryo. J. Morphol 88, 8487-8491.

Henrique, D., Hirsinger, E., Adam, J., Le Roux, I., Pourquie, O., Ish-Horowicz, D. and Lewis, J (1997). Maintenance of neuroepithelial progenitor cells by Delta-Notch signalling in the embryonic chick retina. Curr. Biol 7, 661-670.[Medline]

Holt, C. E., Bertsch, T. W., Ellis, H. M. and Harris WA (1988). Cellular determination in the Xenopus retina is independent of lineage and birth date. Neuron 1, 15-26.[Medline]

Kahn, A. J (1973). Ganglion cell formation in the chick neural retina. Brain Res 63, 285-290.[Medline]

Klein, R., Nanduri, V., Jing, S. A., Lamballe, F., Tapley, P., Bryant, S., Cordon-Cardo, C., Jones, K. R., Reichardt, L. F. and Barbacid, M (1991). The trkB tyrosine protein kinase is a receptor for brain-derived neurotrophic factor and neurotrophin-3. Cell 66, 395-403.[Medline]

Lewin, G. and Barde, Y. A (1996). Physiology of the neurotrophins. Annu. Rev. Neurosci 19, 289-317.[Medline]

Lillien, L (1995). Changes in retinal cell fate induced by overexpression of EGF receptor. Nature 377, 158-162.[Medline]

Lindeberg, J., Klint, P., Williams, R. and Ebendal, T (1997). Identification of a chicken homologue in the Brn-3 subfamily of POU-transcription factors. Dev. Brain Res 100, 169-182.[Medline]

McLoon, S. C. and Barnes R. B (1989). Early differentiation of retinal ganglion cells: an axonal protein expressed by premigratory and migrating retinal ganglion cells. J. Neurosci 9, 1424-1432.[Abstract]

Panabieres, F., Piechaczyk, M., Rainer, B., Dani, C., Fort, P., Riaad, S., Marty, L., Imbach, J. L., Jeanteur, P. and Blanchard, J. M (1984). Complete nucleotide sequence of the messenger RNA coding for chicken muscle glyceraldehyde-3-phosphate dehydrogenase. Biochem. Biophys. Res. Commun 118, 767-773.[Medline]

Perron, M. and Harris, W. A (2000). Determination of vertebrate retinal progenitor cell fate by the Notch pathway and basic helix-loop-helix transcription factors. Cell. Mol. Life Sci 57, 215-223.[Medline]

Prada, C., Puelles, L. and Genis-G\207lvez, J. M (1981). A golgi study on the early sequence of differentiation of ganglion cells in the chick embryo retina. Anat. Embryol 161, 305-317.[Medline]

Prada, C., Puga, J., Perez-Mendez, L., Lopez, R. and Ram\222rez, G (1991). Spatial and temporal patterns of neurogenesis in the chicken retina. Eur. J. Neurosci 3, 559-569.[Medline]

Rager, G. H (1980). Development of the retinotectal projection in the chicken. Adv. Anat. Embryol. Cell Biol 63, 1-90.

Reh, T. A (1992). Cellular interactions determine neuronal phenotypes in rodent retinal cultures. J. Neurobiol 23, 1067-1083.[Medline]

Reiter, Y. and Pastan, I (1998). Recombinant Fv immunotoxins and Fv fragments as novel agents for cancer therapy and diagnosis. Trends Biotechnol 16, 513-520.[Medline]

Schaeren-Wiemers, N. and Gerfin-Moser, A (1993). A single protocol todetect transcripts of various types and expression levels in neural tissue and cultured cells: in situ hybridisation using digoxigenin-labelled cRNA probes. Histochemistry 100, 431-440.[Medline]

Sheppard, A. M., Konopka, M., Robinson, S. R., Morgan, I. G. and Jeffrey, P. L (1991). Thy1 antigen is specific to ganglion cells in chicks. Neurosci. Lett 123, 87-90.[Medline]

Soppet, D., Escandon, E., Maragos, J., Middlemas, D. S., Reid, S. W., Blair, J., Burton, L. E., Stanton, B. R., Kaplan, D. R. and Hunter, T (1991). The neurotrophic factors brain-derived neurotrophic factor and neurotrophin-3 are ligands for the trkB tyrosine kinase receptor. Cell 65, 895-903.[Medline]

Squinto, S. P., Stitt, T. N., Aldrich, T. H., Davis, S., Bianco, S. M., Radziejewski, C., Glass, D. J., Masiakowski, P., Furth, M. E. and Valenzuela, D. M (1991). TrkB encodes a functional receptor for brain-derived neurotrophic factor and neurotrophin-3 but not nerve growth factor. Cell 65, 885-893.[Medline]

Turner, D. L. and Cepko, C. L (1987). A common progenitor for neurons and glia persists in rat retina late in development. Nature 328, 131-136.[Medline]

Turner, D. L., Snyder, E. Y. and Cepko, C. L (1990). Lineage-independent determination of cell type in the embryonic mouse retina. Neuron 4, 833-845.[Medline]

Waid, D. K. and McLoon, S. C (1995). Immediate differentiation of ganglion cells following mitosis in the developing retina. Neuron 14, 117-124.[Medline]

Waid, D. K. and McLoon, S. C (1998). Ganglion cells influence the fate of dividing retinal cells in culture. Development 125, 1059-1066.[Abstract]

Wetts, R. and Fraser, S. E (1988). Multipotent precursors can give rise to all major cell types of the frog retina. Science 239, 1142-1145.[Abstract/Free Full Text]

Wiley, R. G (1996). Targeting toxins to neural antigens and receptors. Semin. Cancer Biol 7, 71-77.[Medline]

Yamagata, K., Goto, K., Kuo, C. H., Kondo, H. and Miki, N (1990). Visinin: a novel calcium binding protein expressed in retinal cone cells. Neuron 4, 469-476.[Medline]

Yamashita, T., Tucker, K. L. and Barde, Y.-A (1999). Neurotrophin binding to the p75 receptor modulates Rho activity and axonal outgrowth. Neuron 24, 585-593.[Medline]

Yoon, S. O., Casaccia-Bonnefil, P., Carter, B. and Chao, M. V (1998). Competitive signaling between TrkA and p75 nerve growth factor receptors determines cell survival. J. Neurosci 18, 3273-3281.[Abstract/Free Full Text]

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Articles by Gonzalez-Hoyuela, M.

Articles by Rodriguez-Tebar, A.

				T. Harada, C. Harada, and L. F. Parada Molecular regulation of visual system development: more than meets the eye Genes & Dev., February 15, 2007; 21(4): 367 - 378. [Abstract] [Full Text] [PDF]

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				J. Kim, H.-H. Wu, A. D. Lander, K. M. Lyons, M. M. Matzuk, and A. L. Calof GDF11 Controls the Timing of Progenitor Cell Competence in Developing Retina Science, June 24, 2005; 308(5730): 1927 - 1930. [Abstract] [Full Text] [PDF]

				A. K. Canger and U. Rutishauser Alteration of neural tissue structure by expression of polysialic acid induced by viral delivery of PST polysialyltransferase Glycobiology, January 1, 2004; 14(1): 83 - 93. [Abstract] [Full Text] [PDF]

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