Papers associated with visual system (and rho)

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	Zebrafish foxe3: roles in ocular lens morphogenesis through interaction with pitx3., Shi X., Mech Dev. October 1, 2006; 123 (10): 761-82.
	High pH accelerates GABA deactivation on perch-rho1B receptors., Qian H., Neuroscience. November 3, 2006; 142 (4): 1221-30.
	Homer proteins control neuronal differentiation through IP(3) receptor signaling., Tanaka M., FEBS Lett. November 13, 2006; 580 (26): 6145-50.
	Expression of RhoB in the developing Xenopus laevis embryo., Vignal E., Gene Expr Patterns. January 1, 2007; 7 (3): 282-8.
	tBid mediated activation of the mitochondrial death pathway leads to genetic ablation of the lens in Xenopus laevis., Du Pasquier D., Genesis. January 1, 2007; 45 (1): 1-10.
	The Xenopus ortholog of the nuclear hormone receptor Nr2e3 is primarily expressed in developing photoreceptors., Martinez-De Luna RI., Int J Dev Biol. January 1, 2007; 51 (3): 235-40.
	Ptf1a triggers GABAergic neuronal cell fates in the retina., Dullin JP., BMC Dev Biol. May 31, 2007; 7 110.
	ANR5, an FGF target gene product, regulates gastrulation in Xenopus., Chung HA., Curr Biol. June 5, 2007; 17 (11): 932-9.
	A specific box switches the cell fate determining activity of XOTX2 and XOTX5b in the Xenopus retina., Onorati M., Neural Dev. June 27, 2007; 2 12.
	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.
	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.
	Wnt6 expression in epidermis and epithelial tissues during Xenopus organogenesis., Lavery DL., Dev Dyn. March 1, 2008; 237 (3): 768-79.
	Xenopus laevis P23H rhodopsin transgene causes rod photoreceptor degeneration that is more severe in the ventral retina and is modulated by light., Zhang R., Exp Eye Res. April 1, 2008; 86 (4): 612-21.
	Heterologous expression and purification of the serotonin type 4 receptor from transgenic mouse retina., Salom D., Biochemistry. December 16, 2008; 47 (50): 13296-307.
	Life after proteolysis: Exploring the signaling capabilities of classical cadherin cleavage fragments., McCusker CD., Commun Integr Biol. January 1, 2009; 2 (2): 155-7.
	The role of Xenopus Rx-L in photoreceptor cell determination., Wu HY., Dev Biol. March 15, 2009; 327 (2): 352-65.
	Defining retinal progenitor cell competence in Xenopus laevis by clonal analysis., Wong LL., Development. May 1, 2009; 136 (10): 1707-15.
	Integration of single and multicellular wound responses., Clark AG., Curr Biol. August 25, 2009; 19 (16): 1389-95.
	The role of miR-124a in early development of the Xenopus eye., Qiu R., Mech Dev. October 1, 2009; 126 (10): 804-16.
	Xenopus delta-catenin is essential in early embryogenesis and is functionally linked to cadherins and small GTPases., Gu D., J Cell Sci. November 15, 2009; 122 (Pt 22): 4049-61.
	Complete reconstruction of the retinal laminar structure from a cultured retinal pigment epithelium is triggered by altered tissue interaction and promoted by overlaid extracellular matrices., Kuriyama F., Dev Neurobiol. December 1, 2009; 69 (14): 950-8.
	The role of rhodopsin glycosylation in protein folding, trafficking, and light-sensitive retinal degeneration., Tam BM., J Neurosci. December 2, 2009; 29 (48): 15145-54.
	Secreted factor FAM3C (ILEI) is involved in retinal laminar formation., Katahira T., Biochem Biophys Res Commun. February 12, 2010; 392 (3): 301-6.
	Regulation of photoreceptor gene expression by the retinal homeobox (Rx) gene product., Pan Y., Dev Biol. March 15, 2010; 339 (2): 494-506.
	Expression characteristics of dual-promoter lentiviral vectors targeting retinal photoreceptors and Müller cells., Semple-Rowland SL., Mol Vis. May 27, 2010; 16 916-34.
	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.
	DAAM1 is a formin required for centrosome re-orientation during cell migration., Ang SF., PLoS One. September 7, 2010; 5 (9): .
	Unexpected diversity and photoperiod dependence of the zebrafish melanopsin system., Matos-Cruz V., PLoS One. January 1, 2011; 6 (9): e25111.
	Cone degeneration following rod ablation in a reversible model of retinal degeneration., Choi RY., Invest Ophthalmol Vis Sci. January 21, 2011; 52 (1): 364-73.
	Activity of the RhoU/Wrch1 GTPase is critical for cranial neural crest cell migration., Fort P., Dev Biol. February 15, 2011; 350 (2): 451-63.
	The Retinal Homeobox (Rx) gene is necessary for retinal regeneration., Martinez-De Luna RI., Dev Biol. May 1, 2011; 353 (1): 10-8.
	Early onset and differential temporospatial expression of melanopsin isoforms in the developing chicken retina., Verra DM., Invest Ophthalmol Vis Sci. July 29, 2011; 52 (8): 5111-20.
	In situ visualization of protein interactions in sensory neurons: glutamic acid-rich proteins (GARPs) play differential roles for photoreceptor outer segment scaffolding., Ritter LM., J Neurosci. August 3, 2011; 31 (31): 11231-43.
	WNK2 kinase is a novel regulator of essential neuronal cation-chloride cotransporters., Rinehart J., J Biol Chem. August 26, 2011; 286 (34): 30171-80.
	Rhodopsin mutant P23H destabilizes rod photoreceptor disk membranes., Haeri M., PLoS One. January 1, 2012; 7 (1): e30101.
	Two types of Tet-On transgenic lines for doxycycline-inducible gene expression in zebrafish rod photoreceptors and a gateway-based tet-on toolkit., Campbell LJ., PLoS One. January 1, 2012; 7 (12): e51270.
	Generation of a genetically encoded marker of rod photoreceptor outer segment growth and renewal., Willoughby JJ., Biol Open. January 15, 2012; 1 (1): 30-6.
	Dysmorphic photoreceptors in a P23H mutant rhodopsin model of retinitis pigmentosa are metabolically active and capable of regenerating to reverse retinal degeneration., Lee DC., J Neurosci. February 8, 2012; 32 (6): 2121-8.
	Spindle position in symmetric cell divisions during epiboly is controlled by opposing and dynamic apicobasal forces., Woolner S., Dev Cell. April 17, 2012; 22 (4): 775-87.
	ATP4a is required for Wnt-dependent Foxj1 expression and leftward flow in Xenopus left-right development., Walentek P., Cell Rep. May 31, 2012; 1 (5): 516-27.
	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.
	Ciliary and non-ciliary expression and function of PACRG during vertebrate development., Thumberger T., Cilia. August 1, 2012; 1 (1): 13.
	Impact of signaling microcompartment geometry on GPCR dynamics in live retinal photoreceptors., Najafi M., J Gen Physiol. September 1, 2012; 140 (3): 249-66.
	Cell type-specific translational profiling in the Xenopus laevis retina., Watson FL., Dev Dyn. December 1, 2012; 241 (12): 1960-72.
	Regulation of rhodopsin-eGFP distribution in transgenic xenopus rod outer segments by light., Haeri M., PLoS One. January 1, 2013; 8 (11): e80059.
	An inducible expression system to measure rhodopsin transport in transgenic Xenopus rod outer segments., Zhuo X., PLoS One. January 1, 2013; 8 (12): e82629.
	A novel application of motion analysis for detecting stress responses in embryos at different stages of development., Tills O., BMC Bioinformatics. February 1, 2013; 14 37.
	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.
	The Xenopus Tgfbi is required for embryogenesis through regulation of canonical Wnt signalling., Wang F., Dev Biol. July 1, 2013; 379 (1): 16-27.
	sox4 and sox11 function during Xenopus laevis eye development., Cizelsky W., PLoS One. July 1, 2013; 8 (7): e69372.

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