The control of cell fate in the embryonic visual system by atonal, tailless and EGFR signaling

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Baker, N. E., Yu, S. and Han, D (1996). Evolution of proneural atonal expression during distinct regulatory phases in the developing Drosophila eye. Curr. Biol 6, 1290-1301.[Medline]

Bier, E., Jan, L. Y. and Jan, Y. N (1990). rhomboid , a gene required for dorsoventral axis establishment and peripheral nervous system development in Drosophila melanogaster. Genes Dev 4, 190-203.[Abstract/Free Full Text]

Bonini, N. M., Leisserson, W. M. and Benzer, S (1993). The eyes absent gene: genetic control of cell survival and differentiation in the developing Drosophila eye. Cell 72, 379-395.[Medline]

Bonini, N. M., Leiserson, W. M. and Benzer, S (1998). Multiple roles of the eyes absent gene in Drosophila. Dev. Biol 196, 42-57.[Medline]

Brand, A. H. and Perrimon, N (1993). Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118, 401-415.[Abstract]

Brown, N. L., Sattler, C. A., Paddock, S. W. and Carroll, S. B (1995). Hairy and emc negatively regulate morphogenetic furrow progression in the Drosophila eye. Cell 80, 879-887.[Medline]

Brown, N. L., Kanekar, S., Vetter, M. L., Tucker, P. K., Gemza, D. L. and Glaser, T (1998). Math5 encodes a murine basic helix-loop-helix transcription factor expressed during early stages of retinal neurogenesis. Development 125, 4821-4833.[Abstract]

Chen, R., Amoui, M., Zhang, Z. and Mardon, G (1997). Dachshund and eyesabsent proteins form a complex and function synergistically to induce ectopic eye development in Drosophila. Cell 91, 893-903.[Medline]

Cheyette, B. N. R., Green, P. J., Martin, K., Garren, H., Hartenstein V. and Zipursky, S. L (1994). The Drosophilasine oculis locus encodes a homeobox gene required for the development of the entire visual system. Neuron 12, 977-996.[Medline]

Desplan, C (1997). Eye development: governed by a dictator or a junta?. Cell 91, 861-864.[Medline]

Dickson, B (1995). Nuclear factors in sevenless signalling. Trends Genet 11, 106-111.[Medline]

Dom\222nguez, M., Wasserman, J. D. and Freeman, M (1998). Multiple functions of the EGF receptor in Drosophila eye development. Curr. Biol 8, 1039-1048.[Medline]

Dumstrei, K., Nassif, C., Abboud, G., Aryai, A., Aryai, A. and Hartenstein, V (1998). EGFR signaling is required for the differentiation and maintenance of neural progenitors along the dorsal midline of the Drosophila embryonic head. Development 125, 3417-3426.[Abstract]

Freeman, M., Kl\212mbt, C., Goodman, C. S. and Rubin, G. M (1992). The argos gene encodes a diffusible factor that regulates cell fate decisions in the Drosophila eye. Cell 69, 963-975.[Medline]

Freeman, M (1994). The spitz gene is required for photoreceptor determination in the Drosophila eye where it interacts with the EGF receptor. Mech.Dev 48, 25-33.[Medline]

Freeman, M (1996). Reiterative use of the EGF receptor triggers differentiation of all cell types in the Drosophila eye. Cell 87, 651-660.[Medline]

Freeman, M (1997). Cell determination strategies in the Drosophila eye. Development 124, 261-270.[Abstract]

Gabay, L., Scholz, H., Golembo, M., Klaes, A., Shilo, B. Z. and Kl\212mbt, C (1996). EGF receptor signaling induces pointed P1 transcription and inactivates Yan protein in the Drosophila embryonic ventral ectoderm. Development 122, 3355-3362.[Abstract]

Gabay, L., Seger, R. and Shilo, B. Z (1997). In situ activation pattern of Drosophila EGF receptor pathway during development. Science 277, 1103-1106.[Abstract/Free Full Text]

Gabay, L., Seger, R. and Shilo, B. Z (1997). MAP kinase in situ activation atlas during Drosophila embryogenesis. Development 124, 3535-3541.[Abstract]

Golembo, M., Raz, E. and Shilo, B. Z (1996). The Drosophila embryonic midline is the site of Spitz processing, and induces activation of the EGF receptor in the ventral ectoderm. Development 122, 3363-3370.[Abstract]

Golembo, M., Schweitzer, R., Freeman, M. and Shilo, B. Z (1996). Argos transcription is induced by the Drosophila EGF receptor pathway to form an inhibitory feedback loop. Development 122, 223-230.[Abstract]

Gradwohl, G., Fode, C. and Guillemot, F (1996). Restricted expression of a novel murine atonal-related bHLH protein in undifferentiated neural precursors. Dev. Biol 180, 227-241.[Medline]

Green, P., Younossi-Hartenstein, A. Y. and Hartenstein, V (1993). Embryonic development of the Drosophila visual system. Cell Tiss. Res 273, 583-598.[Medline]

Grenningloh, G., Rehm, E. J. and Goodman,C. S (1991). Genetic analysis of growth-cone guidance in Drosophila : Fasciclin II functions as a neuronal recognition molecule. Cell 67, 45-57.[Medline]

Hoch, M., Gerwin, N., Taubert, H. and Jackle, H (1992). Competition for overlapping sites in the regulatory region of the Drosophila gene Kruppel. Science 256, 94-97.[Abstract/Free Full Text]

Jarman, A. P., Grau, Y., Jan, L. Y. and Jan, Y. N (1993). atonal is a proneural gene that directs chordotonal organ formation in the Drosophila perpheral nervous system. Cell 73, 1307-1321.[Medline]

Jarman, A. P., Grell, E. H., Ackerman, L., Jan, L. Y. and Jan, Y. N (1994). Atonal is the proneural gene for Drosophila photoreceptors. Nature, 369, 398-400.[Medline]

Jarman, A. P., Sun, Y., Jan, L. Y. and Jan, Y. N (1995). Role of the proneural gene, atonal , in formation of Drosophila chordotonal organs and photoreceptors. Development 121, 2019-2030.[Abstract]

Kanekar, S., Perron, M., Dorsky, R., Harris, W. A., Jan, L. Y., Jan, Y. N. and Vetter, M. L (1997). Xath5 participates in a network of bHLH genes in the developing Xenopus retina. Neuron 19, 981-994.[Medline]

Klaes, A., Menne, T., Stollewerk, A., Scholz, H. and Klambt, C (1994). The Ets transcription factors encoded by the Drosophila gene pointed direct glial cell differentiation in the embryonic CNS. Cell 78, 149-160.[Medline]

Lage, P., Jan, Y. N. and Jarman, A. P (1997). Requirement for EGF receptor signalling in neural recruitment during formation of Drosophila chordotonal sense organ clusters. Curr. Biol 7, 166-175.[Medline]

Margolis, J. S., Borowsky, M. L., Steingrimsson, E., Shim, C. W., Lengyel, J. A. and Posakony, J. W (1995). Posterior stripe expression of hunchback is driven from two promoters by a common enhancer element. Development 121, 3067-3077.[Abstract]

Monaghan, A. P., Grau, E., Bock, D. and Schutz, G (1995). The mouse homolog of the orphan nuclear receptor tailless is expressed in the developing forebrain. Development 121, 839-853.[Abstract]

Nassif, C., Daniel, A., Lengyel, J. A. and Hartenstein, V (1998). The role of morphogenetic cell death during Drosophila embryonic head development. Dev. Biol 197, 170-186.[Medline]

Okabe, M. and Okano, H (1997). Two-step induction of chordotonal organprecursors in Drosophila embryogenesis. Development 124, 1045-1053.[Abstract]

Oliver, G., Mailhos, A., Wehr, R., Copeland, N. G., Jenkins, N. A. and Gruss, P (1995). Six3 , a murine homologue of the sine oculis gene, demarcates the most anterior border of the developing neural plate and is expressed during eye development. Development 12, 4045-4055.

Pankratz, M. J., Busch, M., Hoch, M., Seifert, E. and Jackle, H (1992). Spatial control of the gap gene knirps in the Drosophila embryo by posterior morphogen system. Science 255, 986-989.[Abstract/Free Full Text]

Pignoni, F., Baldarelli, R. M., Steingr\222msson, E., Diaz, R. J., Patapoutian, A., Merriam, J. R. and Lengyel, J. A (1990). The Drosophila gene tailless is expressed at the embryonic termini and is a member of the steroid receptor superfamily. Cell 62, 151-163.[Medline]

Pignoni, F., Steingr\222msson, E. and Lengyel, J. A (1992). bicoid and the terminal system activate tailless expression in the early Drosophila embryo. Development 115, 239-251.[Abstract]

Pignoni, F., Hu, B., Zavitz, K. H., Xiao, J., Garrity, P. A. and Zipursky, S. L (1997). The eye-specification proteins So and Eya form a complex and regulate multiple steps in Drosophila eye development. Cell 91, 881-891.[Medline]

Pollock, J. A. and Benzer, S (1988). Transcript localization of four opsin genes in the three visual organs of Drosophila ; RH2 is ocellus specific. Nature 333, 779-782.[Medline]

Qian, S., Capovilla, M. and Pirrotta, V (1993). Molecular mechanisms of pattern formation by the BRE enhancer of the Ubx gene. EMBOJ 12, 3865-3867.[Medline]

Quiring, R., Walldorf, U., Kloter, U. and Gehring, W. J (1994). Homology of the eyeless gene of Drosophila to the Small eye gene in mice and Aniridia in humans. Science 265, 785-789.[Abstract/Free Full Text]

Robinow, S. and White, K (1991). Characterization and spatial distribution of the ELAV protein during Drosophila melanogaster development. J.Neurobiol 22, 443-461.[Medline]

Rudolph, K. M., Liaw, G. J., Daniel, A., Green, P., Courey, A. J., Hartenstein, V. and Lengyel, J. A (1997). Complex regulatory region mediating tailless expression in early embryonic patterning and brain development. Development 124, 4297-4308.[Abstract]

Schweitzer, R., Shaharabany, M., Seger, R. and Shilo, B.-Z (1995). Secreted Spitz triggers the DER signaling pathway and is a limiting component in embryonic ventral ectoderm determination. Genes Dev 9, 1518-1529.[Abstract/Free Full Text]

Schweitzer, R., Howes, R., Smith, R., Shilo, B. Z. and Freeman, M (1995). Inhibition of Drosophila EGF receptor activation by the secreted protein Argos. Nature 376, 699-702.[Medline]

Schweitzer, R. and Shilo, B (1997). A thousand and one roles for the Drosophila EGF receptor. Trends Gen 13, 191-196.[Medline]

Singer, J. B., Harbecke, R., Kusch, T., Reuter, R. and Lengyel, J. A (1996). Drosophilabrachyenteron regulates gene activity and morphogenesis in the gut. Development 122, 3707-3718.[Abstract]

Spencer, A. S., Powell, P. A., Miller, D. T. and Cagan, R. L (1998). Regulation of EGF receptor signaling establishes pattern across the developing Drosophila retina. Development 125, 4777-4790.[Abstract]

Steingr\222msson, E., Pignoni, F., Liaw, G. J. and Lengyel, J. A (1991). Dual role of the Drosophila pattern gene tailless in embryonic termini. Science 254, 418-421.[Abstract/Free Full Text]

Takebayashi, K., Takahashi, S., Yokota, C., Tsuda, H., Nakanishi, S., Asashima, M. and Kageyama, R (1997). Conversion of ectoderm into a neural fate by ATH-3, a vertebrate basic helix-loop-helix gene homologous to Drosophila proneural gene atonal. Embo J 16, 384-395.[Medline]

Tautz, D. and Pfeifle, C (1989). A non-radioactive in situ hybridization method for the localization of specific RNAs in Drosophila embryos reveals a translational control of the segmentation gene hunchback. Chromosoma 98, 81-85.[Medline]

Tio, M. and Moses, K (1997). The Drosophila TGF alpha homolog Spitz acts in photoreceptor recruitment in the developing retina. Development 124, 343-351.[Abstract]

White, K., Grether, M. E., Abrams, J. M., Young, L., Farrell, K. and Steller, H (1994). Genetic control of programmed cell death in Drosophila. Science 264, 677-683.[Abstract/Free Full Text]

Xu, P. X., Woo, I., Her, H., Beier, D. R. and Maas, R. L (1997). Mouse Eya homologues of the Drosophila eyes absent gene require Pax6 for expression in lens and nasal placode. Development 124, 219-231.[Abstract]

Younossi-Hartenstein, A., Nassif, C. and Hartenstein, V (1996). Early neurogenesis of the Drosophila brain. J. Comp. Neur 370, 313-329.[Medline]

Yu, R. T., McKeown, M., Evans, R. M. and Umesono, K (1994). Relationship between Drosophila gap gene tailless and a vertebrate nuclear receptor Tlx. Nature 370, 375-379.[Medline]

Zipursky, S. L., Venkatesh, T. R., Teplow, D. B. and Benzer, S (1984). Neuronal development in the Drosophilaretina: monoclonal antibodies as molecular probes. Cell 36, 15-26.[Medline]

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