Papers associated with sensory system (and pax6)

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	Expression study of cadherin7 and cadherin20 in the embryonic and adult rat central nervous system., Takahashi M., BMC Dev Biol. June 23, 2008; 8 87.
	Pleiotropic effects in Eya3 knockout mice., Söker T., BMC Dev Biol. June 23, 2008; 8 118.
	The lens-regenerating competence in the outer cornea and epidermis of larval Xenopus laevis is related to pax6 expression., Gargioli C., J Anat. May 1, 2008; 212 (5): 612-20.
	Molecular links among the causative genes for ocular malformation: Otx2 and Sox2 coregulate Rax expression., Danno H., Proc Natl Acad Sci U S A. April 8, 2008; 105 (14): 5408-13.
	Anuran olfactory bulb organization: embryology, neurochemistry and hodology., Moreno N., Brain Res Bull. March 18, 2008; 75 (2-4): 241-5.
	Evidences for tangential migrations in Xenopus telencephalon: developmental patterns and cell tracking experiments., Moreno N., Dev Neurobiol. March 1, 2008; 68 (4): 504-20.
	Purine-mediated signalling triggers eye development., Massé K., Nature. October 25, 2007; 449 (7165): 1058-62.
	Early molecular effects of ethanol during vertebrate embryogenesis., Yelin R., Differentiation. June 1, 2007; 75 (5): 393-403.
	Alterations of rx1 and pax6 expression levels at neural plate stages differentially affect the production of retinal cell types and maintenance of retinal stem cell qualities., Zaghloul NA., Dev Biol. June 1, 2007; 306 (1): 222-40.
	Neural retinal regeneration in the anuran amphibian Xenopus laevis post-metamorphosis: transdifferentiation of retinal pigmented epithelium regenerates the neural retina., Yoshii C., Dev Biol. March 1, 2007; 303 (1): 45-56.
	PP2A:B56epsilon is required for eye induction and eye field separation., Rorick AM., Dev Biol. February 15, 2007; 302 (2): 477-93.
	Bisphenol A causes malformation of the head region in embryos of Xenopus laevis and decreases the expression of the ESR-1 gene mediated by Notch signaling., Imaoka S., Biol Pharm Bull. February 1, 2007; 30 (2): 371-4.
	Regeneration of the amphibian retina: role of tissue interaction and related signaling molecules on RPE transdifferentiation., Araki M., Dev Growth Differ. February 1, 2007; 49 (2): 109-20.
	Changes in Rx1 and Pax6 activity at eye field stages differentially alter the production of amacrine neurotransmitter subtypes in Xenopus., Zaghloul NA., Mol Vis. January 26, 2007; 13 86-95.
	Cloning and developmental expression of the Xenopus homeobox gene Xvsx1., D'Autilia S., Dev Genes Evol. December 1, 2006; 216 (12): 829-34.
	Involvement of a Xenopus nuclear GTP-binding protein in optic primordia formation., Tamanoue Y., Dev Growth Differ. December 1, 2006; 48 (9): 575-85.
	Smurf1 regulates neural patterning and folding in Xenopus embryos by antagonizing the BMP/Smad1 pathway., Alexandrova EM., Dev Biol. November 15, 2006; 299 (2): 398-410.
	Xenopus Teashirt1 regulates posterior identity in brain and cranial neural crest., Koebernick K., Dev Biol. October 1, 2006; 298 (1): 312-26.
	Kermit 2/XGIPC, an IGF1 receptor interacting protein, is required for IGF signaling in Xenopus eye development., Wu J., Development. September 1, 2006; 133 (18): 3651-60.
	Differential role of 14-3-3 family members in Xenopus development., Lau JM., Dev Dyn. July 1, 2006; 235 (7): 1761-76.
	Isolation and characterization of a novel gene, xMADML, involved in Xenopus laevis eye development., Elkins MB., Dev Dyn. July 1, 2006; 235 (7): 1845-57.
	Induction and specification of cranial placodes., Schlosser G., Dev Biol. June 15, 2006; 294 (2): 303-51.
	Eye and neural defects associated with loss of GDF6., Hanel ML., BMC Dev Biol. June 6, 2006; 6 43.
	Negative regulation of Hedgehog signaling by the cholesterogenic enzyme 7-dehydrocholesterol reductase., Koide T., Development. June 1, 2006; 133 (12): 2395-405.
	Expression of Xenopus laevis Lhx2 during eye development and evidence for divergent expression among vertebrates., Viczian AS., Dev Dyn. April 1, 2006; 235 (4): 1133-41.
	Nucleosome regulator Xhmgb3 is required for cell proliferation of the eye and brain as a downstream target of Xenopus rax/Rx1., Terada K., Dev Biol. March 15, 2006; 291 (2): 398-412.
	Highly efficient transgenesis in Xenopus tropicalis using I-SceI meganuclease., Ogino H., Mech Dev. February 1, 2006; 123 (2): 103-13.
	Pigmented epithelium to retinal transdifferentiation and Pax6 expression in larval Xenopus laevis., Arresta E., J Exp Zool A Comp Exp Biol. November 1, 2005; 303 (11): 958-67.
	Neural and eye-specific defects associated with loss of the imitation switch (ISWI) chromatin remodeler in Xenopus laevis., Dirscherl SS., Mech Dev. November 1, 2005; 122 (11): 1157-70.
	Regulation of melanoblast and retinal pigment epithelium development by Xenopus laevis Mitf., Kumasaka M., Dev Dyn. November 1, 2005; 234 (3): 523-34.
	The Optimedin gene is a downstream target of Pax6., Grinchuk O., J Biol Chem. October 21, 2005; 280 (42): 35228-37.
	The role of combinational coding by homeodomain and bHLH transcription factors in retinal cell fate specification., Wang JC., Dev Biol. September 1, 2005; 285 (1): 101-15.
	The doublesex-related gene, XDmrt4, is required for neurogenesis in the olfactory system., Huang X., Proc Natl Acad Sci U S A. August 9, 2005; 102 (32): 11349-54.
	Genetic analysis of metamorphic and premetamorphic Xenopus ciliary marginal zone., Casarosa S., Dev Dyn. June 1, 2005; 233 (2): 646-51.
	Transdifferentiation of the retinal pigment epithelia to the neural retina by transfer of the Pax6 transcriptional factor., Azuma N., Hum Mol Genet. April 15, 2005; 14 (8): 1059-68.
	Frizzled 5 signaling governs the neural potential of progenitors in the developing Xenopus retina., Van Raay TJ., Neuron. April 7, 2005; 46 (1): 23-36.
	Requirement for betaB1-crystallin promoter of Xenopus laevis in embryonic lens development and lens regeneration., Mizuno N., Dev Growth Differ. April 1, 2005; 47 (3): 131-40.
	Dorsoventral patterning of the Xenopus eye: a collaboration of Retinoid, Hedgehog and FGF receptor signaling., Lupo G., Development. April 1, 2005; 132 (7): 1737-48.
	Xenopus aristaless-related homeobox (xARX) gene product functions as both a transcriptional activator and repressor in forebrain development., Seufert DW., Dev Dyn. February 1, 2005; 232 (2): 313-24.
	Olfactory and lens placode formation is controlled by the hedgehog-interacting protein (Xhip) in Xenopus., Cornesse Y., Dev Biol. January 15, 2005; 277 (2): 296-315.
	Insulin-like growth factor (IGF) signalling is required for early dorso-anterior development of the zebrafish embryo., Eivers E., Int J Dev Biol. December 1, 2004; 48 (10): 1131-40.
	Tsukushi functions as an organizer inducer by inhibition of BMP activity in cooperation with chordin., Ohta K., Dev Cell. September 1, 2004; 7 (3): 347-358.
	Molecular anatomy of placode development in Xenopus laevis., Schlosser G., Dev Biol. July 15, 2004; 271 (2): 439-66.
	FGF2 triggers iris-derived lens regeneration in newt eye., Hayashi T., Mech Dev. June 1, 2004; 121 (6): 519-26.
	Xenopus MBD3 plays a crucial role in an early stage of development., Iwano H., Dev Biol. April 15, 2004; 268 (2): 416-28.
	Regulation of vertebrate eye development by Rx genes., Bailey TJ., Int J Dev Biol. January 1, 2004; 48 (8-9): 761-70.
	Morphogenetic movements underlying eye field formation require interactions between the FGF and ephrinB1 signaling pathways., Moore KB., Dev Cell. January 1, 2004; 6 (1): 55-67.
	Catalase and peroxiredoxin 5 protect Xenopus embryos against alcohol-induced ocular anomalies., Peng Y., Invest Ophthalmol Vis Sci. January 1, 2004; 45 (1): 23-9.
	Specification of the vertebrate eye by a network of eye field transcription factors., Zuber ME., Development. November 1, 2003; 130 (21): 5155-67.
	Tissue interactions and lens-forming competence in the outer cornea of larval Xenopus laevis., Cannata SM., J Exp Zool A Comp Exp Biol. October 1, 2003; 299 (2): 161-71.

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