Papers associated with optic vesicle (and rpe)

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	Müller glia reactivity follows retinal injury despite the absence of the glial fibrillary acidic protein gene in Xenopus., Martinez-De Luna RI., Dev Biol. June 15, 2017; 426 (2): 219-235.
	Noggin 1 overexpression in retinal progenitors affects bipolar cell generation., Messina A., Int J Dev Biol. January 1, 2016; 60 (4-6): 151-7.
	COUP-TFs and eye development., Tang K., Biochim Biophys Acta. February 1, 2015; 1849 (2): 201-9.
	Xenopus mutant reveals necessity of rax for specifying the eye field which otherwise forms tissue with telencephalic and diencephalic character., Fish MB., Dev Biol. November 15, 2014; 395 (2): 317-330.
	Photoactivation-induced instability of rhodopsin mutants T4K and T17M in rod outer segments underlies retinal degeneration in X. laevis transgenic models of retinitis pigmentosa., Tam BM., J Neurosci. October 1, 2014; 34 (40): 13336-48.
	Functional diversity of voltage-sensing phosphatases in two urodele amphibians., Mutua J., Physiol Rep. July 16, 2014; 2 (7):
	Magnetic nanoparticles as intraocular drug delivery system to target retinal pigmented epithelium (RPE)., Giannaccini M., Int J Mol Sci. January 22, 2014; 15 (1): 1590-605.
	Comparative expression analysis of cysteine-rich intestinal protein family members crip1, 2 and 3 during Xenopus laevis embryogenesis., Hempel A., Int J Dev Biol. January 1, 2014; 58 (10-12): 841-9.
	Simple and efficient CRISPR/Cas9-mediated targeted mutagenesis in Xenopus tropicalis., Nakayama T., Genesis. December 1, 2013; 51 (12): 835-43.
	Polycomb repressive complex PRC2 regulates Xenopus retina development downstream of Wnt/β-catenin signaling., Aldiri I., Development. July 1, 2013; 140 (14): 2867-78.
	sox4 and sox11 function during Xenopus laevis eye development., Cizelsky W., PLoS One. July 1, 2013; 8 (7): e69372.
	Loss of cell-extracellular matrix interaction triggers retinal regeneration accompanied by Rax and Pax6 activation., Nabeshima A., Genesis. June 1, 2013; 51 (6): 410-9.
	High efficiency TALENs enable F0 functional analysis by targeted gene disruption in Xenopus laevis embryos., Suzuki KT., Biol Open. May 15, 2013; 2 (5): 448-52.
	Hes4 controls proliferative properties of neural stem cells during retinal ontogenesis., El Yakoubi W., Stem Cells. December 1, 2012; 30 (12): 2784-95.
	Cell type-specific translational profiling in the Xenopus laevis retina., Watson FL., Dev Dyn. December 1, 2012; 241 (12): 1960-72.
	Transgenic Xenopus laevis with the ef1-α promoter as an experimental tool for amphibian retinal regeneration study., Ueda Y., Genesis. August 1, 2012; 50 (8): 642-50.
	Using myc genes to search for stem cells in the ciliary margin of the Xenopus retina., Xue XY., Dev Neurobiol. April 1, 2012; 72 (4): 475-90.
	Transmembrane voltage potential controls embryonic eye patterning in Xenopus laevis., Pai VP., Development. January 1, 2012; 139 (2): 313-23.
	Loss of the BMP antagonist, SMOC-1, causes Ophthalmo-acromelic (Waardenburg Anophthalmia) syndrome in humans and mice., Rainger J., PLoS Genet. July 1, 2011; 7 (7): e1002114.
	ET3/Ednrb2 signaling is critically involved in regulating melanophore migration in Xenopus., Kawasaki-Nishihara A., Dev Dyn. June 1, 2011; 240 (6): 1454-66.
	The Retinal Homeobox (Rx) gene is necessary for retinal regeneration., Martinez-De Luna RI., Dev Biol. May 1, 2011; 353 (1): 10-8.
	Novel strategy for subretinal delivery in Xenopus., Gonzalez-Fernandez F., Mol Vis. March 23, 2011; 17 2956-69.
	Expression patterns of genes encoding small GTPases Ras-dva-1 and Ras-dva-2 in the Xenopus laevis tadpoles., Tereshina MB., Gene Expr Patterns. January 1, 2011; 11 (1-2): 156-61.
	The RNA-binding protein Xp54nrb isolated from a Ca²+-dependent screen is expressed in neural structures during Xenopus laevis development., Neant I., Int J Dev Biol. January 1, 2011; 55 (10-12): 923-31.
	Programming pluripotent precursor cells derived from Xenopus embryos to generate specific tissues and organs., Borchers A., Genes (Basel). November 18, 2010; 1 (3): 413-26.
	Sumoylation controls retinal progenitor proliferation by repressing cell cycle exit in Xenopus laevis., Terada K., Dev Biol. November 1, 2010; 347 (1): 180-94.
	Regulation of retinal homeobox gene transcription by cooperative activity among cis-elements., Martinez-de Luna RI., Gene. November 1, 2010; 467 (1-2): 13-24.
	Retinal patterning by Pax6-dependent cell adhesion molecules., Rungger-Brändle E., Dev Neurobiol. September 15, 2010; 70 (11): 764-80.
	Cellular retinol binding protein 1 modulates photoreceptor outer segment folding in the isolated eye., Wang X., Dev Neurobiol. August 1, 2010; 70 (9): 623-35.
	FMR1/FXR1 and the miRNA pathway are required for eye and neural crest development., Gessert S., Dev Biol. May 1, 2010; 341 (1): 222-35.
	Regulation of photoreceptor gene expression by the retinal homeobox (Rx) gene product., Pan Y., Dev Biol. March 15, 2010; 339 (2): 494-506.
	Fourier domain optical coherence tomography as a noninvasive means for in vivo detection of retinal degeneration in Xenopus laevis tadpoles., Lee DC., Invest Ophthalmol Vis Sci. February 1, 2010; 51 (2): 1066-70.
	The role of miR-124a in early development of the Xenopus eye., Qiu R., Mech Dev. October 1, 2009; 126 (10): 804-16.
	Generation of functional eyes from pluripotent cells., Viczian AS., PLoS Biol. August 1, 2009; 7 (8): e1000174.
	Retina and lens regeneration in anuran amphibians., Filoni S., Semin Cell Dev Biol. July 1, 2009; 20 (5): 528-34.
	Retinal regeneration in the Xenopus laevis tadpole: a new model system., Vergara MN., Mol Vis. May 18, 2009; 15 1000-13.
	Developmental expression of retinoic acid receptors (RARs)., Dollé P., Nucl Recept Signal. May 12, 2009; 7 e006.
	Chemical genomics identifies compounds affecting Xenopus laevis pigment cell development., Tomlinson ML., Mol Biosyst. April 1, 2009; 5 (4): 376-84.
	The role of Xenopus Rx-L in photoreceptor cell determination., Wu HY., Dev Biol. March 15, 2009; 327 (2): 352-65.
	Cytoplasmic polyadenylation and cytoplasmic polyadenylation element-dependent mRNA regulation are involved in Xenopus retinal axon development., Lin AC., Neural Dev. March 2, 2009; 4 8.
	Immunohistochemical analysis of Musashi-1 expression during retinal regeneration of adult newt., Kaneko J., Neurosci Lett. February 6, 2009; 450 (3): 252-7.
	Cloning and expression analysis of the anterior parahox genes, Gsh1 and Gsh2 from Xenopus tropicalis., Illes JC., Dev Dyn. January 1, 2009; 238 (1): 194-203.
	Pleiotropic effects in Eya3 knockout mice., Söker T., BMC Dev Biol. June 23, 2008; 8 118.
	Cloning and functional characterization of the proton-coupled electrogenic folate transporter and analysis of its expression in retinal cell types., Umapathy NS., Invest Ophthalmol Vis Sci. November 1, 2007; 48 (11): 5299-305.
	Dark rearing rescues P23H rhodopsin-induced retinal degeneration in a transgenic Xenopus laevis model of retinitis pigmentosa: a chromophore-dependent mechanism characterized by production of N-terminally truncated mutant rhodopsin., Tam BM., J Neurosci. August 22, 2007; 27 (34): 9043-53.
	Expression patterns of chick Musashi-1 in the developing nervous system., Wilson JM., Gene Expr Patterns. August 1, 2007; 7 (7): 817-25.
	Nr2e3 and Nrl can reprogram retinal precursors to the rod fate in Xenopus retina., McIlvain VA., Dev Dyn. July 1, 2007; 236 (7): 1970-9.
	Heme carrier protein 1 (HCP1) expression and functional analysis in the retina and retinal pigment epithelium., Sharma S., Exp Cell Res. April 1, 2007; 313 (6): 1251-9.
	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.
	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.

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