Papers associated with tadpole (and rho)

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	Quantitative proteome dynamics across embryogenesis in a model chordate., Frese AN., iScience. April 19, 2024; 27 (4): 109355.
	Regeneration from three cellular sources and ectopic mini-retina formation upon neurotoxic retinal degeneration in Xenopus., Parain K., Glia. April 1, 2024; 72 (4): 759-776.
	Hijacking of internal calcium dynamics by intracellularly residing viral rhodopsins., Eria-Oliveira AS., Nat Commun. January 2, 2024; 15 (1): 65.
	Cell-type expression and activation by light of neuropsins in the developing and mature Xenopus retina., Man LLH., Front Cell Neurosci. January 1, 2023; 17 1266945.
	Zic5 stabilizes Gli3 via a non-transcriptional mechanism during retinal development., Sun J., Cell Rep. February 1, 2022; 38 (5): 110312.
	The Rho guanine nucleotide exchange factor Trio is required for neural crest cell migration and interacts with Dishevelled., Kratzer MC., Development. May 22, 2020; 147 (10):
	NudC regulates photoreceptor disk morphogenesis and rhodopsin localization., Boitet ER., FASEB J. August 1, 2019; 33 (8): 8799-8808.
	Evolution of the Rho guanine nucleotide exchange factors Kalirin and Trio and their gene expression in Xenopus development., Kratzer MC., Gene Expr Patterns. June 1, 2019; 32 18-27.
	Linking YAP to Müller Glia Quiescence Exit in the Degenerative Retina., Hamon A., Cell Rep. May 7, 2019; 27 (6): 1712-1725.e6.
	Electrophysiological Changes During Early Steps of Retinitis Pigmentosa., Bocchero U., Invest Ophthalmol Vis Sci. March 1, 2019; 60 (4): 933-943.
	Using the Xenopus Developmental Eye Regrowth System to Distinguish the Role of Developmental Versus Regenerative Mechanisms., Kha CX., Front Physiol. January 1, 2019; 10 502.
	The RhoGEF protein Plekhg5 regulates apical constriction of bottle cells during gastrulation., Popov IK., Development. December 12, 2018; 145 (24):
	Identification of retinal homeobox (rax) gene-dependent genes by a microarray approach: The DNA endoglycosylase neil3 is a major downstream component of the rax genetic pathway., Pan Y., Dev Dyn. November 1, 2018; 247 (11): 1199-1210.
	Ras-dva small GTPases lost during evolution of amniotes regulate regeneration in anamniotes., Ivanova AS., Sci Rep. August 29, 2018; 8 (1): 13035.
	Excitatory synaptic dysfunction cell-autonomously decreases inhibitory inputs and disrupts structural and functional plasticity., He HY., Nat Commun. July 24, 2018; 9 (1): 2893.
	A model for investigating developmental eye repair in Xenopus laevis., Kha CX., Exp Eye Res. April 1, 2018; 169 38-47.
	Expression of the inactivating deiodinase, Deiodinase 3, in the pre-metamorphic tadpole retina., Le Blay K., PLoS One. January 1, 2018; 13 (4): e0195374.
	Distinct cis-acting regions control six6 expression during eye field and optic cup stages of eye formation., Ledford KL., Dev Biol. June 15, 2017; 426 (2): 418-428.
	The cellular and molecular mechanisms of tissue repair and regeneration as revealed by studies in Xenopus., Li J., Regeneration (Oxf). October 28, 2016; 3 (4): 198-208.
	Hedgehog-dependent E3-ligase Midline1 regulates ubiquitin-mediated proteasomal degradation of Pax6 during visual system development., Pfirrmann T., Proc Natl Acad Sci U S A. September 6, 2016; 113 (36): 10103-8.
	Formation of a "Pre-mouth Array" from the Extreme Anterior Domain Is Directed by Neural Crest and Wnt/PCP Signaling., Jacox L., Cell Rep. August 2, 2016; 16 (5): 1445-1455.
	Nucleotide bound to rab11a controls localization in rod cells but not interaction with rhodopsin., Reish NJ., J Neurosci. November 5, 2014; 34 (45): 14854-63.
	An unconventional secretory pathway mediates the cilia targeting of peripherin/rds., Tian G., J Neurosci. January 15, 2014; 34 (3): 992-1006.
	Signals governing the trafficking and mistrafficking of a ciliary GPCR, rhodopsin., Lodowski KH., J Neurosci. August 21, 2013; 33 (34): 13621-38.
	Urotensin II receptor (UTR) exists in hyaline chondrocytes: a study of peripheral distribution of UTR in the African clawed frog, Xenopus laevis., Konno N., Gen Comp Endocrinol. May 1, 2013; 185 44-56.
	Signaling and transcriptional regulation in neural crest specification and migration: lessons from xenopus embryos., Pegoraro C., Wiley Interdiscip Rev Dev Biol. January 1, 2013; 2 (2): 247-59.
	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.
	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.
	The cytoplasmic tyrosine kinase Arg regulates gastrulation via control of actin organization., Bonacci G., Dev Biol. April 1, 2012; 364 (1): 42-55.
	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.
	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.
	The Retinal Homeobox (Rx) gene is necessary for retinal regeneration., Martinez-De Luna RI., Dev Biol. May 1, 2011; 353 (1): 10-8.
	TRPM7 regulates gastrulation during vertebrate embryogenesis., Liu W., Dev Biol. February 15, 2011; 350 (2): 348-57.
	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.
	xGit2 and xRhoGAP 11A regulate convergent extension and tissue separation in Xenopus gastrulation., Köster I., Dev Biol. August 1, 2010; 344 (1): 26-35.
	Regulation of photoreceptor gene expression by the retinal homeobox (Rx) gene product., Pan Y., Dev Biol. March 15, 2010; 339 (2): 494-506.
	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.
	Light responses in rods of vitamin A-deprived Xenopus., Solessio E., Invest Ophthalmol Vis Sci. September 1, 2009; 50 (9): 4477-86.
	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.
	Stable knock-down of vomeronasal receptor genes in transgenic Xenopus tadpoles., Kashiwagi A., Biochem Biophys Res Commun. June 23, 2006; 345 (1): 140-7.
	JNK and ROKalpha function in the noncanonical Wnt/RhoA signaling pathway to regulate Xenopus convergent extension movements., Kim GH., Dev Dyn. April 1, 2005; 232 (4): 958-68.
	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.
	Conserved transcriptional activators of the Xenopus rhodopsin gene., Whitaker SL., J Biol Chem. November 19, 2004; 279 (47): 49010-8.
	Targeted expression of the dominant-negative FGFR4a in the eye using Xrx1A regulatory sequences interferes with normal retinal development., Zhang L., Development. September 1, 2003; 130 (17): 4177-86.
	Arrestin migrates in photoreceptors in response to light: a study of arrestin localization using an arrestin-GFP fusion protein in transgenic frogs., Peterson JJ., Exp Eye Res. May 1, 2003; 76 (5): 553-63.
	XOtx5b and XOtx2 regulate photoreceptor and bipolar fates in the Xenopus retina., Viczian AS., Development. April 1, 2003; 130 (7): 1281-94.
	Xenopus laevis red cone opsin and Prph2 promoters allow transgene expression in amphibian cones, or both rods and cones., Moritz OL., Gene. October 2, 2002; 298 (2): 173-82.
	Identification of 3,4-didehydroretinal isomers in the Xenopus tadpole tail fin containing photosensitive melanophores., Okano K., Zoolog Sci. February 1, 2002; 19 (2): 191-5.
	Expression of opsin molecule in cultured murine melanocyte., Miyashita Y., J Investig Dermatol Symp Proc. November 1, 2001; 6 (1): 54-7.

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