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Ameerun, R. F., de Winter, J. P., van den Eijnden-van Raaij, A. J., den Hertog, J., de Laat, S. W. and Tertoolen, L. G (1996). Activin and basic fibroblast growth factor regulate neurogenesis of murine embryonal carcinoma cells. Cell Growth Differ 7, 1679-1688.[Abstract]

Belecky-Adams, T., Tomarev, S., Li, H. S., Ploder, L., McInnes, R. R., Sundin, O. and Adler, R (1997). Pax-6, Prox 1, and Chx10 homeobox gene expression correlates with phenotypic fate of retinal precursor cells. Invest. Ophthalmol. Vis. Sci 38, 1293-1303.[Abstract/Free Full Text]

Bentley, N. J., Eisen, T. and Goding, C. R (1994). Melanocyte-specific expression of the human tyrosinase promoter: activation by the microphthalmia gene product and role of the initiator. Mol. Cell Biol 14, 7996-8006.[Abstract/Free Full Text]

Boissy, R. E., Boissy, Y. L., Krakowsky, J. M., Lamoreux, M. L., Lingrel, J. B. and Nordlund, J. J (1993). Ocular pathology in mice with a transgenic insertion at the microphthalmia locus. J. Submicrosc. Cytol. Pathol 25, 319-332.[Medline]

Bora, N., Conway, S. J., Liang, H. and Smith, S. B (1998). Transient overexpression of the Microphthalmia gene in the eyes of Microphthalmia vitiligo mutant mice. Dev. Dyn 213, 283-292.[Medline]

Bumsted, K. M. and Barnstable, C. J (2000). Dorsal retinal pigment epithelium differentiates as neural retina in the microphthalmia (mi/mi) mouse. Invest. Ophthalmol. Vis. Sci 41, 903-908.[Abstract/Free Full Text]

Burmeister, M., Novak, J., Liang, M. Y., Basu, S., Ploder, L., Hawes, N. L., Vidgen, D., Hoover, F., Goldman, D., Kalnins, V. I. et al. ( (1996). Ocular retardation mouse caused by Chx10 homeobox null allele: impaired retinal progenitor proliferation and bipolar cell differentiation. Nat. Genet 12, 376-384.[Medline]

Buse, E. and de Groot, H (1991). Generation of developmental patterns in the neuroepithelium of the developing mammalian eye: the pigment epithelium of the eye. Neurosci. Lett 126, 63-66.[Medline]

Connolly, D. J., Patel, K., Seleiro, E. A., Wilkinson, D. G. and Cooke, J (1995). Cloning, sequencing, and expressional analysis of the chick homologue of follistatin. Dev. Genet 17, 65-77.[Medline]

de Iongh, R. and McAvoy, J. W (1993). Spatio-temporal distribution of acidic and basic FGF indicates a role for FGF in rat lens morphogenesis. Dev. Dyn 198, 190-202.[Medline]

Desire, L., Head, M. W., Fayein, N. A., Courtois, Y. and Jeanny, J. C (1998). Suppression of fibroblast growth factor 2 expression by antisense oligonucleotides inhibits embryonic chick neural retina cell differentiation and survival in vivo. Dev. Dyn 212, 63-74.[Medline]

Dohrmann, C. E., Hemmati-Brivanlou, A., Thomsen, G. H., Fields, A., Woolf, T. M. and Melton, D. A (1993). Expression of activin mRNA during early development in Xenopus laevis. Dev. Biol 157, 474-483.[Medline]

Dragomirov, N. I (1937). The influence of the neighbouring ectoderm on the organization of the eye rudiment. Dokl. Akad. nauk 15, 61-64.

Etchevers, H. C., Couly, G., Vincent, C. and Le Douarin, N. M (1999). Anterior cephalic neural crest is required for forebrain viability. Development 126, 3533-3543.[Abstract]

Fang, J., Wang, S. Q., Smiley, E. and Bonadio, J (1997). Genes coding for mouse activin beta C and beta E are closely linked and exhibit a liver-specific expression pattern in adult tissues. Biochem. Biophys. Res. Commun 231, 655-661.[Medline]

Fang, J., Yin, W., Smiley, E., Wang, S. Q. and Bonadio, J (1996). Molecular cloning of the mouse activin beta E subunit gene. Biochem. Biophys. Res. Commun 228, 669-674.[Medline]

Feijen, A., Goumans, M. J. and van den Eijnden-van Raaij, A. J (1994). Expression of activin subunits, activin receptors and follistatin in postimplantation mouse embryos suggests specific developmental functions for different activins. Development 120, 3621-3637.[Abstract]

Furuta, Y. and Hogan, B. L. M (1998). BMP4 is essential for lens induction in the mouse embryo. Genes Dev 12, 3764-3775.[Abstract/Free Full Text]

Guillemot, F. and Cepko, C. L (1992). Retinal fate and ganglion cell differentiation are potentiated by acidic FGF in an in vitro assay of early retinal development. Development 114, 743-754.[Abstract]

Hamburger, V. and Hamilton, H. L (1951). A series of normal stages in the development of the chick embryo. J. Morphol 88, 49-92.

Henrique, D., Adam, J., Myat, A., Chitnis, A., Lewis, J. and Ish-Horowicz, D (1995). Expression of a Delta homologue in prospective neurons in the chick. Nature 375, 787-790.[Medline]

Hilfer, S. R (1983). Development of the eye of the chick embryo. Scanning Electron Microsc 3, 1353-1369.

Hollyday, M., McMahon, J. A. and McMahon, A. P (1995). Wnt expression patterns in chick embryo nervous system. Mech. Dev 52, 9-25.[Medline]

Hyer, J., Mima, T. and Mikawa, T (1998). FGF1 patterns the optic vesicle by directing the placement of the neural retina domain. Development 125, 869-877.[Abstract]

Jaffe, G. J., Harrison, C. E., Lui, G. M., Roberts, W. L., Goldsmith, P. C., Mesiano, S. and Jaffe, R. B (1994). Activin expression by cultured human retinal pigment epithelial cells. Invest. Ophthalmol. Vis. Sci 35, 2924-2931.[Abstract/Free Full Text]

Jasoni, C., Hendrickson, A. and Roelink, H (1999). Analysis of chicken Wnt-13 expression demonstrates coincidence with cell division in the developing eye and is consistent with a role in induction. Dev. Dyn 215, 215-224.[Medline]

Johnston, M. C., Noden, D. M., Hazelton, R. D., Coulombre, J. L. and Coulombre, A. J (1979). Origins of avian ocular and periocular tissues. Exp. Eye Res 29, 27-43.[Medline]

Kaufman, M (1979). Cephalic neurulation and optic vesicle formation in the early mouse embryo. Am. J. Anat 155, 425-443.[Medline]

Kawakami, A., Kimura-Kawakami, M., Nomura, T. and Fujisawa, H (1997). Distributions of PAX6 and PAX7 proteins suggest their involvement in both early and late phases of chick brain development. Mech. Dev 66, 119-130.[Medline]

Levine, E. M., Hitchcock, P. F., Glasgow, E. and Schechter, N (1994). Restricted expression of a new paired-class homeobox gene in normal and regenerating adult goldfish retina. J. Comp. Neurol 348, 596-606.[Medline]

Levine, E. M. and Schechter, N (1993). Homeobox genes are expressed in the retina and brain of adult goldfish. Proc. Natl. Acad. Sci. USA 90, 2729-2733.[Abstract/Free Full Text]

Li, H. S., Yang, J. M., Jacobson, R. D., Pasko, D. and Sundin, O (1994). Pax-6 is first expressed in a region of ectoderm anterior to the early neuralplate: implications for stepwise determination of the lens. Dev. Biol 162, 181-194.[Medline]

Liu, I. S., Chen, J. D., Ploder, L., Vidgen, D., van der Kooy, D., Kalnins, V. I. and McInnes, R. R (1994). Developmental expression of a novel murine homeobox gene (Chx10): evidence for roles in determination of the neuroretina and inner nuclear layer. Neuron 13, 377-393.[Medline]

Mahmood, R., Kiefer, P., Guthrie, S., Dickson, C. and Mason, I (1995). Multiple roles for FGF-3 during cranial neural development in the chicken. Development 121, 1399-1410.[Abstract]

Matzuk, M. M., Kumar, T. R. and Bradley, A (1995). Different phenotypes for mice deficient in either activins or activin receptor type II. Nature 374, 356-360.[Medline]

Mochii, M., Agata, K. and Eguchi, G (1991). Complete sequence and expression of a cDNA encoding a chicken 115-kDa melanosomal matrix protein. Pigment Cell Res 4, 41-47.[Medline]

Mochii, M., Agata, K., Kobayashi, H., Yamamoto, T. S. and Eguchi, G (1988). Expression of gene coding for a melanosomal matrix protein transcriptionally regulated in the transdifferentiation of chick embryo pigmented epithelial cells. Cell Differ 24, 67-74.[Medline]

Mochii, M., Mazaki, Y., Mizuno, N., Hayashi, H. and Eguchi, G (1998). Role of Mitf in differentiation and transdifferentiation of chicken pigmented epithelial cell. Dev. Biol 193, 47-62.[Medline]

Nakayama, A., Nguyen, M. T., Chen, C. C., Opdecamp, K., Hodgkinson, C. A. and Arnheiter, H (1998). Mutations in microphthalmia, the mousehomolog of the human deafness gene MITF, affect neuroepithelial and neural crest-derived melanocytes differently. Mech. Dev 70, 155-166.[Medline]

Nomura, M. and Li, E (1998). Smad2 role in mesoderm formation, left-right patterning and craniofacial development. Nature 393, 786-790.[Medline]

Nottoli, T., Hagopian-Donaldson, S., Zhang, J., Perkins, A. and Williams, T (1998). AP-2-null cells disrupt morphogenesis of the eye, face, and limbs in chimeric mice. Proc. Natl. Acad. Sci. USA 95, 13714-13719.[Abstract/Free Full Text]

O'Bryan, M. K., Sebire, K. L., Gerdprasert, O., Hedger, M. P., Hearn, M. T. and de Kretser, D. M (2000). Cloning and regulation of the rat activin betaE subunit. J. Mol. Endocrinol 24, 409-418.[Abstract]

Oda, S., Nishimatsu, S., Murakami, K. and Ueno, N (1995). Molecular cloning and functional analysis of a new activin beta subunit: a dorsal mesoderm-inducing activity in Xenopus. Biochem. Biophys. Res. Commun 210, 581-588.[Medline]

Park, C. M. and Hollenberg, M. J (1989). Basic fibroblast growth factor induces retinal regeneration in vivo. Dev. Biol 134, 201-205.[Medline]

Passini, M. A., Levine, E. M., Canger, A. K., Raymond, P. A. and Schechter, N (1997). Vsx-1 and Vsx-2: differential expression of two paired-like homeobox genes during zebrafish and goldfish retinogenesis. J. Comp. Neurol 388, 495-505.[Medline]

Pittack, C., Grunwald, G. B. and Reh, T. A (1997). Fibroblast growth factors are necessary for neural retina but not pigmented epithelium differentiation in chick embryos. Development 124, 805-816.[Abstract]

Pittack, C., Jones, M. and Reh, T. A (1991). Basic fibroblast growth factor induces retinal pigment epithelium to generate neural retina in vitro. Development 113, 577-588.[Abstract]

Shen, H., Wilke, T., Ashique, A. M., Narvey, M., Zerucha, T., Savino, E., Williams, T. and Richman, J. M (1997). Chicken transcription factor AP-2: cloning, expression and its role in outgrowth of facial prominences and limb buds. Dev. Biol 188, 248-266.[Medline]

Song, J., Oh, S. P., Schrewe, H., Nomura, M., Lei, H., Okano, M., Gridley, T. and Li, E (1999). The type II activin receptors are essential for egg cylinder growth, gastrulation, and rostral head development in mice. Dev. Biol 213, 157-169.[Medline]

Stern, C. D., Yu, R. T., Kakizuka, A., Kintner, C. R., Mathews, L. S., Vale, W. W., Evans, R. M. and Umesono, K (1995). Activin and its receptors during gastrulation and the later phases of mesoderm development in the chick embryo. Dev. Biol 172, 192-205.[Medline]

Stroeva, O. G (1960). Eperimental analysis of the eye morphogenesis in mammals. J. Embryol. Exp. Morph 8, 349-368.

Toy, J., Yang, J. M., Leppert, G. S. and Sundin, O. H (1998). The optx2 homeobox gene is expressed in early precursors of the eye and activates retina-specific genes. Proc. Natl. Acad. Sci. USA 95, 10643-10648.[Abstract/Free Full Text]

Turque, N., Denhez, F., Martin, P., Planque, N., Bailly, M., Begue, A., Stehelin, D. and Saule, S (1996). Characterization of a new melanocyte-specific gene (QNR-71) expressed in v-myc-transformed quail neuroretina. EMBO J 15, 3338-3350.[Medline]

Vassalli, A., Matzuk, M. M., Gardner, H. A., Lee, K. F. and Jaenisch, R (1994). Activin/inhibin beta B subunit gene disruption leads to defects in eyelid development and female reproduction. Genes Dev 8, 414-427.[Abstract/Free Full Text]

West-Mays, J. A., Zhang, J., Nottoli, T., Hagopian-Donaldson, S., Libby, D., Strissel, K. J. and Williams, T (1999). AP-2alpha transcription factor is required for early morphogenesis of the lens vesicle. Dev. Biol 206, 46-62.[Medline]

Winkler, S., Loosli, F., Henrich, T., Wakamatsu, Y. and Wittbrodt, J (2000). The conditional medaka mutation eyeless uncouples patterning and morphogenesis of the eye. Development 127, 1911-1919.[Abstract]

Yasumoto, K., Yokoyama, K., Shibata, K., Tomita, Y. and Shibahara, S (1994). Microphthalmia-associated transcription factor as a regulator for melanocyte-specific transcription of the human tyrosinase gene. Mol. Cell Biol 14, 8058-8070.[Abstract/Free Full Text]

Yasumoto, K., Yokoyama, K., Takahashi, K., Tomita, Y. and Shibahara, S (1997). Functional analysis of microphthalmia-associated transcription factor in pigment cell-specific transcription of the human tyrosinase family genes. J. Biol. Chem 272, 503-509.[Abstract/Free Full Text]

Zhao, S., Thornquist, S. C. and Barnstable, C. J (1995). In vitro transdifferentiation of embryonic rat retinal pigment epithelium to neural retina. Brain Res 677, 300-310.[Medline]
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