eyeless

REFERENCES

Adachi, Y., et al. (2003). Conserved cis-regulatory modules mediate complex neural expression patterns of the eyeless gene in the Drosophila brain. Mech. Dev. 120: 1113-1126. 14568101

Altmann, C. R., et al. (1997). Lens induction by Pax-6 in Xenopus laevis. Dev. Biol. 185(1): 119-123.

Anderson, J., Salzer, C. L. and Kumar, J. P. (2006). Regulation of the retinal determination gene dachshund in the embryonic head and developing eye of Drosophila. Dev. Biol. 297(2): 536-49. 16780828

Aota, S.-i., et al. (2003). Pax6 autoregulation mediated by direct interaction of Pax6 protein with the head surface ectoderm-specific enhancer of the mouse Pax6 gene. Dev. Biol. 257: 1-13. 12729563

Araki, I. and Nakamura, H. (1999). Engrailed defines the position of dorsal di-mesencephalic boundary by repressing diencephalic fate. Development 126: 5127-5135.

Bäumer, N., et al. (2002). Pax6 is required for establishing naso-temporal and dorsal characteristics of the optic vesicle. Development 129: 4535-4545. 12223410

Benassayag, C., et al. (2003). Evidence for a direct functional antagonism of the selector genes proboscipedia and eyeless in Drosophila head development. Development 130: 575-586. 12490563

Berger, J., et al. (2007). Conditional activation of Pax6 in the developing cortex of transgenic mice causes progenitor apoptosis. Development 134(7): 1311-22. Medline abstract: 17329367

Cremazy, F., Berta, P. and Girard, F. (2000). Sox neuro, a new Drosophila Sox gene expressed in the developing central nervous system. Mech. Dev. 93(1-2): 215-9.

Ashery-Padan, R., et al. (2000). Pax6 activity in the lens primordium is required for lens formation and for correct placement of a single retina in the eye. Genes Dev. 14: 2701-2711.

Bäumer, N., et al. (2003). Retinal pigmented epithelium determination requires the redundant activities of Pax2 and Pax6. Development 130: 2903-2915. 12756174

Bell, E., et al. (2001). Dynamic domains of gene expression in the early avian forebrain. Dev. Bio. 236: 76-88. 11456445

Bernier, G., et al. (2001). Isolation and characterization of a downstream target of Pax6 in the mammalian retinal primordium. Development 128: 3987-3994. 11641222

Bertrand, N., Medevielle, G. and Pituello, F. (2000). FGF signalling controls the timing of Pax6 activation in the neural tube. Development 127: 4837-4843.

Bessa, J., et al. (2002). Combinatorial control of Drosophila eye development by Eyeless, Homothorax, and Teashirt. Genes Dev. 16: 2415-2427. 12231630

Bishop, K. M., Goudreau, G. and O'Leary, D. D. M. (2000). Regulation of area identity in the mammalian neocortex by Emx2 and Pax6. Science 288: 344-349.

Bishop, K. M., Rubenstein, J. L. R. and O'Leary. D. D. M. (2002). Distinct actions of Emx1, Emx2, and Pax6 in regulating the specification of areas in the developing neocortex. J. Neurosci. 22(17): 7627-7638. 12196586

Blader, P., et al. (2004). Conserved and acquired features of neurogenin1 regulation. Development 131: 5627-5637. 15496438

Bonini, N. M., et al. (1997). The Drosophila eyes absent gene directs ectopic eye formation in a pathway conserved between flies and vertebrates. Development 124(23): 4819-4826.

Breitling, R. and Gerber, J.-K. (2000). Origin of the paired domain. Dev. Genes Evol. 210: 644-650. 21025774

Briscoe, J., et al. (1999). Homeobox gene Nkx2.2 and specification of neuronal identity by graded Sonic hedgehog signalling. Nature 398(6728): 622-7.

Brown, N. L., et al. (1998). Math5 encodes a murine basic helix-loop-helix transcription factor expressed during early stages of retinal neurogenesis. Development 125(23): 4821-4833.

Bui, Q. T., et al. (2000). Functional analysis of an eye enhancer of the Drosophila eyes absent gene: Differential regulation by eye specification genes. Dev. Biol. 221: 355-364.

Burrill, J.D., et al. (1997). PAX2 is expressed in multiple spinal cord interneurons, including a population of EN1+ interneurons that require PAX6 for their development. Development 124(22): 4493-4503.

Callaerts, P., et al. (1999). Isolation and expression of a Pax-6 gene in the regenerating and intact planarian Dugesia(G)tigrina. Proc. Natl. Acad. Sci. 96(2): 558-63.

Callaerts, P., et al. (2001). Drosophila Pax-6/eyeless is essential for normal adult brain structure and function. J. Neurobiol. 46: 73-88. 11153010

Caric, D., et al. (1997). Determination of the migratory capacity of embryonic cortical cells lacking the transcription factor Pax-6. Development 124(24): 5087-5096.

Carriere, C., et al. (1995). Nuclear localization signals, DNA binding, and transactivation properties of quail Pax-6 (Pax-QNR) isoforms. Cell Growth Differ. 6(12): 1531-40.

Catmull, J., et al. (1998). Pax-6 origins - implications from the structure of two coral pax genes. Dev. Genes Evol. 208(6): 352-6.

Chang, T., et al. (2001). Dpp and Hh signaling in the Drosophila embryonic eye field. Development 128: 4691-4704. 11731450

Chapouton, P., Gartner, A. and Gotz, M. (1999). The role of Pax6 in restricting cell migration between developing cortex and basal ganglia Development 126: 5569-5579.

Chen, R., et al. (1997). Dachshund and eyes absent proteins form a complex and function synergistically to induce ectopic eye development in Drosophila. Cell 91(7): 893-903.

Cheyette, B.N.R., et al. (1994). The Drosophila sine oculis locus encodes a homeodomain-containing protein required for the development of the entire visual system. Neuron 12: 977-96

Cinar, H. N. and Chisholm, A. D. (2004). Genetic analysis of the Caenorhabditis elegans pax-6 locus: roles of paired domain-containing and nonpaired domain-containing isoforms. Genetics 168(3): 1307-22. 15579687

Chisholm, A. D. and Horvitz, H. R. (1995). Patterning of the Caenorhabditis elegans head region by the Pax-6 family member vab-3. Nature 376: 52-55

Chow, R. L., et al. (1999). Pax6 induces ectopic eyes in a vertebrate. Development 126: 4213-4222.

Collinson, J. M., Hill, R. E. and West, J. D. (2000). Different roles for Pax6 in the optic vesicle and facial epithelium mediate early morphogenesis of the murine eye. Development 127: 945-956.

Collinson, J. M., et al. (2003). The roles of Pax6 in the cornea, retina, and olfactory epithelium of the developing mouse embryo. Dev. Bio. 255: 303-312. 12648492

Collombat, P., et al. (2005). The simultaneous loss of Arx and Pax4 genes promotes a somatostatin-producing cell fate specification at the expense of the alpha- and beta-cell lineages in the mouse endocrine pancreas. Development 132(13): 2969-80. 15930104

Czerny T., et al. (1999). twin of eyeless, a second Pax-6 gene of Drosophila, acts upstream of eyeless in the control of eye development. Mol. Cell 3(3): 297-307.

Denes, A. S., et al. (2007). Molecular architecture of annelid nerve cord supports common origin of nervous system centralization in bilateria. Cell 129(2): 277-88. Medline abstract: 17448990

Dimanlig, P. V., et al. (2001). The upstream ectoderm enhancer in Pax6 has an important role in lens induction. Development 128: 4415-4424. 11714668

Dominguez, M., Ferres-Marco, D., Gutierrez-Avino, F. J., Speicher, S. A. and Beneyto, M. (2004). Growth and specification of the eye are controlled independently by Eyegone and Eyeless in Drosophila melanogaster. Nat. Genet. 36: 31-39. 14702038

Dozier, C., et al. (2001). The Caenorhabditis elegans Six/sine oculis class homeobox gene ceh-32 is required for head morphogenesis. Dev. Bio. 236: 289-303. 11476572

Duncan, M. K., et al. (1998). Dual roles for Pax-6: a transcriptional repressor of lens fiber cell-specific beta-crystallin genes. Mol. Cell. Biol. 18(9): 5579-86.

Engelkamp, D., et al. (1999). Role of Pax6 in development of the cerebellar system. Development 126: 3585-3596.

Epstein, J. A., et al. (1994). Two independent and interactive DNA-binding subdomains of the Pax6 paired domain are regulated by alternative splicing. Genes Dev. 8: 2022-34.

Ericson, J., et al. (1997). Pax6 controls progenitor cell identity and neuronal fate in response to graded Shh signaling. Cell 90(1): 169-180.

Ermakova, G. V., et al. (1999). The homeobox gene, Xanf-1, can control both neural differentiation and patterning in the presumptive anterior neurectoderm of the Xenopus laevis embryo. Development 126: 4513-4523.

Estivill-Torrus, G., Vitalis, T., Fernandez-Llebrez, P. and Price, D. J. (2001). The transcription factor Pax6 is required for development of the diencephalic dorsal midline secretory radial glia that form the subcommissural organ. Mech Dev. 109(2): 215-24. 11731235

Estivill-Torrus, G., et al. (2002). Pax6 is required to regulate the cell cycle and the rate of progression from symmetrical to asymmetrical division in mammalian cortical progenitors. Development 129: 455-466. 11807037

Faber, S. C., et al. (2001). Fgf receptor signaling plays a role in lens induction. Development 128: 4425-4438. 11714669

Favor, J., et al. (2001). Molecular characterization of Pax62Neu through Pax610Neu: An extension of the Pax6 allelic series and the identification of two possible hypomorph alleles in the mouse Mus musculus. Genetics 159: 1689-170. 11779807

Galliot, I. and Miller, I, (2000) Origin of anterior patterning. How old is our head? Trends Genet. 16: 1-5.

Glardon, S., et al. (1997). Conservation of Pax-6 in a lower chordate, the ascidian Phallusia mammillata. Development 124: 817-825

Glardon, S., et al. (1998). Isolation and developmental expression of the amphioxus pax-6 gene (AmphiPax-6): insights into eye and photoreceptor evolution. Development 125(14): 2701-2710.

Glaser, T., et al. (1994). PAX6 gene dosage effect in a family with congenital cataracts, aniridia, anophthalmia and central nervous system defects. Nature Genet. 7: 463-71

Goulding, M. D., Lumsden, A. and Gruss, P. (1993). Signals from the notochord and floor plate regulate the region-specific expression of two Pax genes in the developing spinal cord. Development 117: 1001-16.

Halder, G., Callaerts, P. and Gehring, W.J. (1995). Induction of ectopic eyes by targeted expression of the eyeless gene in Drosophila. Science 267(5205): 1788-1792

Halder, G., et al. (1998). Eyeless initiates the expression of both sine oculis and eyes absent during Drosophila compound eye development. Development 125: 2181-2191

Hartmann, B., et al. (2002). Pax6 in the sepiolid squid Euprymna scolopes: evidence for a role in eye, sensory organ and brain development. Mech. Dev. 120: 177-183. 12559490

Haubst, N., Berger, J., Radjendirane, V., Graw, J., Favor, J., Saunders, G. F., Stoykova, A. and Gotz, M. (2004). Molecular dissection of Pax6 function: the specific roles of the paired domain and homeodomain in brain development. Development 131(24): 6131-40. 15548580

Hauck, B., Gehring, W. J. and Walldorf, U. (1999). Functional analysis of an eye specific enhancer of the eyeless gene in Drosophila. Proc. Natl. Acad. Sci. 96(2): 564-9.

Holst, B. D., et al. (1997). A binding site for Pax proteins regulates expression of the gene for the neural cell adhesion molecule in the embryonic spinal cord. Proc. Natl. Acad. Sci. 94 (4): 1465-1470.

Hornyak, T. J., et al. (2001). Transcription factors in melanocyte development: distinct roles for Pax-3 and Mitf. Mech. Dev. 101: 47-59. 11231058

Hummel, T., Attix, S., Gunning, D. and Zipursky, S. L. (2002). Temporal control of glial cell migration in the Drosophila eye requires gilgamesh, hedgehog, and eye specification genes. Neuron 33: 193-203. 11804568

Jang, C.-C., et al. (2003). Two Pax genes, eye gone and eyeless, act cooperatively in promoting Drosophila eye development. Development 130: 2939-2951. 12756177

Jiao, R., et al. (2001). Headless flies generated by developmental pathway interference. Development 128: 3307-3319. 11546747

Jones, L., et al. (2002). Pax6 is required for the normal development of the forebrain axonal connections. Development 129: 5041-5052. 12397112

Jun, S., and Desplan, C. (1996). Cooperative interactions between paired domain and homeodomain. Development 122: 2639-50

Kamachi, Y., et al. (2001). Pax6 and SOX2 form a co-DNA-binding partner complex that regulates initiation of lens development. Genes Dev. 15: 1272-1286. 11358870

Kammandel, B., et al. (1999). Distinct cis-essential modules direct the time-space pattern of the pax6 gene activity. Dev. Biol. 205(1): 79-97.

Kammermeier, L., et al. (2001). Differential expression and function of the Drosophila Pax6 genes eyeless and twin of eyeless in embryonic central nervous system development. Mech. Dev. 103: 71-78. 11335113

Kango-Singh, M., Singh, A. and Sun, Y. H. (2003). Eyeless collaborates with Hedgehog and Decapentaplegic signaling in Drosophila eye induction. Dev. Bio. 256: 48-60. 12654291

Kawahara, A. and Dawid, I. B. (2002). Developmental expression of zebrafish emx1 during early embryogenesis. Gene Expr. Patterns 2(3-4): 201-6. Medline abstract: 12617801

Kawakami, A., et al. (1997). Distributions of PAX6 and PAX7 proteins suggest their involvement in both early and late phases of chick brain development. Mech. Dev. 66(1-2): 119-130.

Kawahara, A., Chien, C.-B. Dawid, I. B. (2002). The homeobox gene mbx is involved in eye and tectum development. Dev. Bio. 248: 107-117. 12142024

Kenyon, K. L., Zaghloul, N. and Moody, S. A. (2001). Transcription factors of the anterior neural plate alter cell movements of epidermal progenitors to specify a retinal fate. Dev. Biol. 240(1): 77-91. 11784048

Kenyon, K. L., Ranade, S. S., Curtiss, J. Mlodzik, M. and Pignoni, F. (2003). Coordinating proliferation and tissue specification to promote regional identity in the Drosophila head. Dev. Cell 5: 403-414. 12967560

Kim, A. S., et al. (2001). Pax-6 regulates expression of SFRP-2 and Wnt-7b in the developing CNS. J. Neurosci. 21: RC132: 1-5. 11222670

Kozmik, Z., et al. (2003). Role of Pax genes in eye evolution: A Cnidarian paxb gene uniting Pax2 and Pax6 functions. Dev. Cell 5: 773-785. 14602077

Kronhamn, J., et al. (2002). Headless flies produced by mutations in the paralogous Pax6 genes eyeless and twin of eyeless. Development 129: 1015-1026. 11861484

Kumar, J. P. and Moses, K. (2001a). EGF receptor and Notch signaling act upstream of Eyeless/Pax6 to control eye specification. Cell 104: 687-697. 11257223

Kumar, J. P. and Moses, K. (2001b). Expression of evolutionarily conserved eye specification genes during Drosophila embryogenesis. Dev. Genes Evol. 211: 406-414. 11685574

Kurata, S., et al. (2000). Notch signaling and the determination of appendage identity. Proc. Natl. Acad. Sci. 97: 2117-2122.

Kurusu, M., et al. (2000). Genetic control of development of the mushroom bodies, the associative learning centers in the Drosophila brain, by the eyeless, twin of eyeless, and dachshund genes. Proc. Natl. Acad. Sci. Vol. 97: 2140-2144.

Larsson, L.-I., et al. (1998). Pax 4 and 6 regulate gastrointestinal endocrine cell development. Mech. Dev. 79(1-2): 153-159

Lee, J. D. and Treisman, J. E. (2001). The role of Wingless signaling in establishing the anteroposterior and dorsoventral axes of the eye disc. Development 128: 1519-1529. 11290291

Lesaffre, B., Joliot, A., Prochiantz, A. and Volovitch, M. (2007). Direct non-cell autonomous Pax6 activity regulates eye development in the zebrafish. Neural Develop. 2: 2. Medline abstract: 17229313

Liu, A. and Joyner, A. L. (2001). EN and GBX2 play essential roles downstream of FGF8 in patterning the mouse mid/hindbrain region. Development 128: 181-191. 11124114

Loosli, F., et al. (2001). Medaka eyeless is the key factor linking retinal determination and eye growth. Development 128: 4035-4044. 11641226

Lowe, C. J., et al. (2003). Anteroposterior patterning in hemichordates and the origins of the chordate nervous system. Cell 113: 853-865. 12837244

Macdonald, R. and Wilson, S. W., (1997). Spatial and temporal distribution of Pax6 was studied in the Zebrafish eye. Dev. Genes Evol. 206: 363-369

Makarenkova, H. P., et al. (2000). FGF10 is an inducer and Pax6 a competence factor for lacrimal gland development. Development 127(12): 2563-72.

Manuel, M., et al. (2007). Controlled overexpression of Pax6 in vivo negatively autoregulates the Pax6 locus, causing cell-autonomous defects of late cortical progenitor proliferation with little effect on cortical arealization. Development 134: 545-555. Medline abstract: 17202185

Marquardt, T., et al. (2001). Pax6 is required for the multipotent state of retinal progenitor cells. Cell 105: 43-55. 11301001

Mastick, G., et al. (1997). Pax-6 functions in boundary formation and axon guidance in the embryonic mouse forebrain. Development 124: 1985-1997.

Mathers, P. H., et al. (1997). The Rx homeobox gene is essential for vertebrate eye development. Nature 387 (6633): 603-607.

Matsunaga, E., Araki, I. and Nakamura, H. (2000). Pax6 defines the di-mesencephalic boundary by repressing En1 and Pax2. Development 127: 2357-2365.

Meech, R., et al. (1999). A binding site for homeodomain and Pax proteins is necessary for L1 cell adhesion molecule gene expression by Pax-6 and bone morphogenetic proteins. Proc. Natl. Acad. Sci. 96(5): 2420-2425.

Meighan, C. M. and Schwarzbauer, J. E. (2007). Control of C. elegans hermaphrodite gonad size and shape by vab-3/Pax6-mediated regulation of integrin receptors. Genes Dev. 21(13): 1615-20. Medline abstract: 17606640

Mikkola, I., et al. (1999). Phosphorylation of the transactivation domain of Pax6 by extracellular signal-regulated kinase and p38 mitogen-activated protein kinase. J. Biol. Chem. 274(21): 15115-26.

Miller, D. J., et al. (2000). Pax gene diversity in the basal cnidarian Acropora millepora (Cnidaria, Anthozoa): Implications for the evolution of the Pax gene family. Proc. Natl. Acad. Sci. 97: 4475-4480.

Michaut, L., Flister, S., Neeb, M., White, K. P., Certa, U. and Gehring, W. J. (2003). Analysis of the eye developmental pathway in Drosophila using DNA microarrays. Proc. Natl. Acad. Sci. 100(7): 4024-9. 12655063

Muzio, L. and Mallamaci, A. (2003). Emx1, emx2 and pax6 in specification, regionalization and arealization of the cerebral cortex. Cereb. Cortex 13(6): 641-7. Medline abstract: 12764040

Mizuno, M., et al. (1997). pax-6 gene expression in newt eye development. Dev. Genes Evol. 207: 167-176

Murakami, Y., et al. (2001). Identification and expression of the lamprey Pax6 gene: evolutionary origin of the segmented brain of vertebrates. Development 128: 3521-3531. 11566857

Niimi, T., et al. (1999). Direct regulatory interaction of the Eyeless protein with an eye-specific enhancer in the sine oculis gene during eye induction in Drosophila. Development 126: 2253-2260.

Nomura, T. and Osumi, N. (2004). Misrouting of mitral cell progenitors in the Pax6/small eye rat telencephalon. Development 131: 787-796

Noveen, A., Daniel, A. and Hartenstein, V. (2000). Early development of the Drosophila mushroom body: the roles of eyeless and dachshund. Development 127: 3475-3488. 10903173

Onuma, Y., et al. (2002). Conservation of Pax 6 function and upstream activation by Notch signaling in eye development of frogs and flies Proc. Natl. Acad. Sci. 99: 2020-2025. 11842182

Ostrin, E. J., et al. (2006). Genome-wide identification of direct targets of the Drosophila retinal determination protein Eyeless. Genome Res. 16(4): 466-76. 16533912

Osumi, N., et al. (1997). Pax-6 is involved in the specification of hindbrain motor neuron subtype. Development 124(15): 2961-2972.

Pan, D. and Rubin, G. M. (1998). Targeted expression of teashirt induces ectopic eyes in Drosophila. Proc. Natl. Acad. Sci. 95(26): 15508-12.

Papatsenko, D., Nazina, A. and Desplan, C. (2001). A conserved regulatory element present in all Drosophila rhodopsin genes mediates Pax6 functions and participates in the fine-tuning of cell-specific expression. Mech. Dev. 101: 143-153. 11231067

Pappu, K. S., et al. (2003). Mechanism of hedgehog signaling during Drosophila eye development. Development 130: 3053-3062. 12756186

Pignoni, F., et al. (1997). The eye-specification proteins So and Eya form a complex and regulate multiple steps in Drosophila eye development. Cell 91(7): 881-891.

Pituello, F. et al. (1999). Activation of Pax6 depends on somitogenesis in the chick embryo cervical spinal cord. Development. 126: 587-596.

Pauli, T. Seimiya, M., Blanco, J. and Gehring, W. J. (2005). Identification of functional sine oculis motifs in the autoregulatory element of its own gene, in the eyeless enhancer and in the signalling gene hedgehog. Development 132: 2771-2782. 15901665

Plaza, S., Dozier, C. and Saule, S. (1993). Quail Pax-6 (Pax-QNR) encodes a transcription factor able to bind and trans-activate its own promoter. Cell Growth Differ. 4(12): 1041-50.

Plaza, S., et al. (1994). Pax-QNR/Pax-6, a paired- and homeobox-containing protein, recognizes Ets binding sites and can alter the transactivating properties of Ets transcription factors. Gene Expr. 4(1-2): 43-52.

Plaza, S., et al. (1995a). Identification and characterization of a neuroretina-specific enhancer element in the quail Pax-6 (Pax-QNR) gene. Mol. Cell. Biol. 15(2): 892-903.

Plaza, S., et al. (1995b). C-Myb acts as transcriptional activator of the quail PAX6 (PAX-QNR) promoter through two different mechanisms. Oncogene10(2): 329-40.

Plaza, S., et al. (1995c). Quail Pax-6 (Pax-QNR) mRNAs are expressed from two promoters used differentially during retina development and neuronal differentiation. Mol. Cell. Biol. 15(6): 3344-53.

Plaza, S., et al. (1997). The homeobox-containing Engrailed (En-1) product down-regulates the expression of Pax-6 through a DNA binding-independent mechanism. Cell Growth Differ. 8(10): 1115-25.

Plaza, S., Saule, S. and Dozier, C. (1999). High conservation of cis-regulatory elements between quail and human for the Pax-6 gene. Dev. Genes Evol. 209(3): 165-73.

Plaza, S., et al. (2001). Molecular basis for the inhibition of Drosophila eye development by Antennapedia. EMBO J. 20: 802-811. 11179224

Porter, F. D., et al. (1997). Lhx2, a LIM homeobox gene, is required for eye, forebrain, and definitive erythrocyte development. Development 124(15): 2935-2944.

Pratt, T., et al. (2000). A role for Pax6 in the normal development of dorsal thalamus and its cortical connections. Development 127(23): 5167-78.

Pratt, T., et al. (2002). Disruption of early events in thalamocortical tract formation in mice lacking the transcription factors Pax6 or Foxg1. J. Neurosci. 22(19): 8523-8531. 12351726

Punzo, C., Kurata, S. and Gehring, W. J. (2001). The eyeless homeodomain is dispensable for eye development in Drosophila. Genes Dev. 15: 1716-1723. 11445545

Punzo, C., et al. (2002). Differential interactions of eyeless and twin of eyeless with the sine oculis enhancer. Development 129: 625-634. 11830564

Punzo, C., et al. (2004). Functional divergence between eyeless and twin of eyeless in Drosophila melanogaster. Development 131: 3943-3953. 15253940

Quinn, J. C., West, J. D. and Hill, R. E. (1996). Multiple functions for Pax6 in mouse eye and nasal development. Genes Dev. 10: 435-446

Quiring, R. (1994). Homology of the eyeless gene of Drosophila to the Small eye gene in mice and Aniridia in humans. Science 265: 785-787

Renoncourt, Y., et al. (1998). Neurons derived in vitro from ES cells express homeoproteins characteristic of motoneurons and interneurons. Mech. Dev. 79(1-2): 185-198

Sander, M., et al. (1997). Genetic analysis reveals that PAX6 is required for normal transcription of pancreatic hormone genes and islet development. Genes Dev. 11:1662-1673.

Scardigli, R., et al. (2001). Crossregulation between Neurogenin2 and pathways specifying neuronal identity in the spinal cord. Neuron 31: 203-217. 11502253

Scardigli, R., et al. (2003). Direct and concentration-dependent regulation of the proneural gene Neurogenin2 by Pax6. Development 130: 3269-3281. 12783797

Schedl, A., et al. (1996). Influence of PAX6 gene dosage on development: overexpression causes severe eye abnormalities. Cell 86: 71-82

Schwarz, M., et al. (1999). Pax2/5 and Pax6 subdivide the early neural tube into three domains. Mech. Dev. 82(1-2): 29-39 .

Schwarz, M., et al. (2000). Spatial specification of mammalian eye territories by reciprocal transcriptional repression of Pax2 and Pax6. Development 127: 4325-4334.

Seimiya, M. and Gehring, W. J. (2000). The Drosophila homeobox gene optix is capable of inducing ectopic eyes by an eyeless-independent mechanism Development 127: 1879-1886

Shen, W. and Mardon, G. (1997). Ectopic eye development in Drosophila induced by directed dachshund expression. Development 124: 45-52. 9006066

Sheng, G., et al. (1997). Direct regulation of rhodopsin 1 by Pax-6/eyeless in Drosophila: evidence for a conserved function in photoreceptors. Genes Dev. 11: 1122-31

Sivak, J. M., et al. (2000). Pax-6 expression and activity are induced in the reepithelializing cornea and control activity of the transcriptional promoter for matrix metalloproteinase gelatinase B. Dev. Biol. 222: 41-54.

Song, N. I., et al (2007). pygopus 2 has a crucial, Wnt pathway-independent function in lens induction. Development 134: 1873-1885. Medline abstract: 17428831

Stenman, J., et al. (2003). Tlx and Pax6 co-operate genetically to establish the pallio-subpallial boundary in the embryonic mouse telencephalon. Development 130: 1113-1122. 12571103

Stoykova, A., et al. (1996). Forebrain patterning defects in Small eye mutant mice. Development 122, 3453-3465. 8951061

Stoykova, A., et al. (1997). Pax6-dependent regulation of adhesive patterning, R-cadherin expression and boundary formation in developing forebrain. Development 124(19): 3765-3777.

Sun, H., et al. (1997). Evolution of paired domains: isolation and sequencing of jellyfish and hydra Pax genes related to Pax-5 and Pax-6. Proc. Natl. Acad. Sci. 94 (10): 5156-5161

Suzanne, M., Estella, C., Calleja, M. and S·nchez-Herrero, E. (2003). The hernandez and fernandez genes of Drosophila specify eye and antenna. Dev. Bio. 260: 465-483. 12921746

Takahashi, M. and Osumi, N. (2002). Pax6 regulates specification of ventral neurone subtypes in the hindbrain by establishing progenitor domains. Development 129: 1327-1338. 11880342

Talamillo, A., et al. (2003). Pax6 regulates regional development and neuronal migration in the cerebral cortex. Dev. Bio. 255: 151-163. 12618140

Tang, H. K., Singh, S. and Saunders, G. F. (1998). Dissection of the transactivation function of the transcription factor encoded by the eye developmental gene PAX6. J. Biol. Chem. 273(13): 7210-7221.

Tomarev, S. I., et al. (1997). Squid Pax-6 and eye development. Proc. Natl. Acad. Sci. 94: 2421-26.

Toresson, H., Potter, S. S. and Campbell, K. (2000). Genetic control of dorsal-ventral identity in the telencephalon: opposing roles for Pax6 and Gsh2. Development 127: 4361-4371.

Torres, M., Gómez-Pardo, E and Gruss, P. (1996). Pax2 contributes to inner ear patterning and optic nerve trajectory. Development 122, 3381-3391

Turque, N., et al. (1994). Pax-QNR/Pax-6, a paired box- and homeobox-containing gene expressed in neurons, is also expressed in pancreatic endocrine cells. Mol. Endocrinol. 8(7): 929-38.

Urbach, R. and Technau, G. M. (2003). Molecular markers for identified neuroblasts in the developing brain of Drosophila. Development 130: 3621-3637. 12835380

van Raamsdonk, C. D. and Tilghman, S. M. (2000). Dosage requirement and allelic expression of PAX6 during lens placode formation. Development 127: 5439-5448.

Wang, S., Tulina, N., Carlin, D. L. and Rulifson, E. J. (2007). The origin of islet-like cells in Drosophila identifies parallels to the vertebrate endocrine axis. Proc. Natl. Acad. Sci. 104(50): 19873-8. PubMed citation: 18056636

Warren, N. and Price, D. J. (1997). Roles of Pax-6 in murine diencephalic development. Development 124: 1573-1582.

Wawersik, S., et al. (1999). BMP7 acts in murine lens placode development. Dev. Biol. 207(1): 176-188.

Williams, S. C., et al. (1998). A highly conserved lens transcriptional control element from the Pax-6 gene. Mech. Dev. 73(2): 225-229.

Xu, H. E., et al. (1999). Crystal structure of the human pax6 paired domain-DNA complex reveals specific roles for the linker region and carboxy-terminal subdomain in DNA binding. Genes Dev. 13(10): 1263-75.

Xu, P.-X.. et al., (1997). Mouse Eya homologues of the Drosophila eyes absent gene require Pax6 for expression in lens and nasal placode. Development 124: 219-231

Xu, P.-X., et al. (1999). Regulation of Pax6 expression is conserved between mice and flies. Development 126: 383-395.

Yamasaki, T., et al. (2001). Pax6 regulates granule cell polarization during parallel fiber formation in the developing cerebellum. Development 128: 3133-3144. 11688562

Yan, Q., et al. (2007). Protein phosphatase-1 modulates the function of Pax-6, a transcription factor controlling brain and eye development. J. Biol. Chem. 282(19): 13954-65. PubMed citation: 17374606

Zhang, X., et al. (2002). Meis homeoproteins directly regulate Pax6 during vertebrate lens morphogenesis. Genes Dev. 16: 2097-2107. 12183364

Zhang, Y. and Emmons, S. W. (1995). Specification of sense-organ identity by a Caenorhabditis elegans Pax-6 homologue. Nature 376: 55-59

Zhang, T., et al. (2006). Direct control of neurogenesis by selector factors in the fly eye: regulation of atonal by Ey and So. Development 133(24): 4881-9. Medline abstract: 17108002

Zhang, Y., et al. (1998). Regulated nuclear entry of the C. elegans Pax-6 transcription factor. Mech. Dev. 78 (1-2): 179-187.

Zimmerman, J. E., Bui, Q. T., Liu, H. and Bonini, N. M. (2000). Molecular genetic analysis of Drosophila eyes absent mutants reveals an eye enhancer element. Genetics 154: 237-246. Medline abstract: 10628984

Zuber, M. E., et al. (2003). Specification of the vertebrate eye by a network of eye field transcription factors. Development 130: 5155-5167. 12944429

Zygar, C. A., Cook, T. L. and Grainger, R. M. (1998). Gene activation during early stages of lens induction in Xenopus. Development 125(17): 3509-3519.

eyeless: Biological Overview | Evolutionary Homologs | Regulation | Developmental Biology | Effects of Mutation 

date revised: 15 July 2008

Home page: The Interactive Fly © 1997 Thomas B. Brody, Ph.D.

The Interactive Fly resides on the
Society for Developmental Biology's Web server.