Papers associated with lens

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	Metabolic differentiation in the embryonic retina., Agathocleous M., Nat Cell Biol. August 1, 2012; 14 (8): 859-64.
	Neural activity and branching of embryonic retinal ganglion cell dendrites., Hocking JC., Mech Dev. July 1, 2012; 129 (5-8): 125-35.
	Mutual repression between Gbx2 and Otx2 in sensory placodes reveals a general mechanism for ectodermal patterning., Steventon B., Dev Biol. July 1, 2012; 367 (1): 55-65.
	Mutations in IRX5 impair craniofacial development and germ cell migration via SDF1., Bonnard C., Nat Genet. May 13, 2012; 44 (6): 709-13.
	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.
	Visuospatial information in the retinotectal system of xenopus before correct image formation by the developing eye., Richards BA., Dev Neurobiol. April 1, 2012; 72 (4): 507-19.
	14-3-3 proteins regulate retinal axon growth by modulating ADF/cofilin activity., Yoon BC., Dev Neurobiol. April 1, 2012; 72 (4): 600-14.
	Transcription factors involved in lens development from the preplacodal ectoderm., Ogino H., Dev Biol. March 15, 2012; 363 (2): 333-47.
	Simple, fast, tissue-specific bacterial artificial chromosome transgenesis in Xenopus., Fish MB., Genesis. March 1, 2012; 50 (3): 307-15.
	Histology of plastic embedded amphibian embryos and larvae., Kurth T., Genesis. March 1, 2012; 50 (3): 235-50.
	RIPPLY3 is a retinoic acid-inducible repressor required for setting the borders of the pre-placodal ectoderm., Janesick A., Development. March 1, 2012; 139 (6): 1213-24.
	Transmembrane voltage potential controls embryonic eye patterning in Xenopus laevis., Pai VP., Development. January 1, 2012; 139 (2): 313-23.
	CRIM1 complexes with ß-catenin and cadherins, stabilizes cell-cell junctions and is critical for neural morphogenesis., Ponferrada VG., PLoS One. January 1, 2012; 7 (3): e32635.
	Comparative expression analysis of the H3K27 demethylases, JMJD3 and UTX, with the H3K27 methylase, EZH2, in Xenopus., Kawaguchi A., Int J Dev Biol. January 1, 2012; 56 (4): 295-300.
	Histological observation on unique phenotypes of malformation induced in Xenopus tropicalis larvae by tributyltin., Liu J., J Environ Sci (China). January 1, 2012; 24 (2): 195-202.
	Williams Syndrome Transcription Factor is critical for neural crest cell function in Xenopus laevis., Barnett C., Mech Dev. January 1, 2012; 129 (9-12): 324-38.
	A homolog of Subtilisin-like Proprotein Convertase 7 is essential to anterior neural development in Xenopus., Senturker S., PLoS One. January 1, 2012; 7 (6): e39380.
	Regulation of XFGF8 gene expression through SRY (sex-determining region Y)-box 2 in developing Xenopus embryos., Kim YH., Reprod Fertil Dev. January 1, 2012; 24 (6): 769-77.
	Activity-based labeling of matrix metalloproteinases in living vertebrate embryos., Keow JY., PLoS One. January 1, 2012; 7 (8): e43434.
	Expression analysis of the polypyrimidine tract binding protein (PTBP1) and its paralogs PTBP2 and PTBP3 during Xenopus tropicalis embryogenesis., Noiret M., Int J Dev Biol. January 1, 2012; 56 (9): 747-53.
	Cataracts and microphthalmia caused by a Gja8 mutation in extracellular loop 2., Xia CH., PLoS One. January 1, 2012; 7 (12): e52894.
	Neurally Derived Tissues in Xenopus laevis Embryos Exhibit a Consistent Bioelectrical Left-Right Asymmetry., Pai VP., Stem Cells Int. January 1, 2012; 2012 353491.
	Origin and segregation of cranial placodes in Xenopus laevis., Pieper M., Dev Biol. December 15, 2011; 360 (2): 257-75.
	pTransgenesis: a cross-species, modular transgenesis resource., Love NR., Development. December 1, 2011; 138 (24): 5451-8.
	Remobilization of Sleeping Beauty transposons in the germline of Xenopus tropicalis., Yergeau DA., Mob DNA. November 24, 2011; 2 15.
	Maternal topoisomerase II alpha, not topoisomerase II beta, enables embryonic development of zebrafish top2a-/- mutants., Sapetto-Rebow B., BMC Dev Biol. November 23, 2011; 11 71.
	Quantitative analysis of ascorbic acid permeability of aquaporin 0 in the lens., Nakazawa Y., Biochem Biophys Res Commun. November 11, 2011; 415 (1): 125-30.
	Over-expression of atf4 in Xenopus embryos interferes with neurogenesis and eye formation., Liu JT., Dongwuxue Yanjiu. October 1, 2011; 32 (5): 485-91.
	The development of the adult intestinal stem cells: Insights from studies on thyroid hormone-dependent amphibian metamorphosis., Shi YB., Cell Biosci. September 6, 2011; 1 (1): 30.
	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.
	V-ATPase-dependent ectodermal voltage and pH regionalization are required for craniofacial morphogenesis., Vandenberg LN., Dev Dyn. August 1, 2011; 240 (8): 1889-904.
	FGF signaling is required for lens regeneration in Xenopus laevis., Fukui L., Biol Bull. August 1, 2011; 221 (1): 137-45.
	Xenopus laevis insulin receptor substrate IRS-1 is important for eye development., Bugner V., Dev Dyn. July 1, 2011; 240 (7): 1705-15.
	Biphasic effect of linoleic acid on connexin 46 hemichannels., Retamal MA., Pflugers Arch. June 1, 2011; 461 (6): 635-43.
	New doxycycline-inducible transgenic lines in Xenopus., Rankin SA, Rankin SA., Dev Dyn. June 1, 2011; 240 (6): 1467-74.
	Peter Pan functions independently of its role in ribosome biogenesis during early eye and craniofacial cartilage development in Xenopus laevis., Bugner V., Development. June 1, 2011; 138 (11): 2369-78.
	Different consequences of cataract-associated mutations at adjacent positions in the first extracellular boundary of connexin50., Tong JJ., Am J Physiol Cell Physiol. May 1, 2011; 300 (5): C1055-64.
	The Retinal Homeobox (Rx) gene is necessary for retinal regeneration., Martinez-De Luna RI., Dev Biol. May 1, 2011; 353 (1): 10-8.
	Controlling gene loss of function in newts with emphasis on lens regeneration., Tsonis PA., Nat Protoc. May 1, 2011; 6 (5): 593-9.
	Cloning and characterization of GABAA α subunits and GABAB subunits in Xenopus laevis during development., Kaeser GE., Dev Dyn. April 1, 2011; 240 (4): 862-73.
	The expression of αA- and βB1-crystallin during normal development and regeneration, and proteomic analysis for the regenerating lens in Xenopus laevis., Zhao Y., Mol Vis. March 23, 2011; 17 768-78.
	Novel strategy for subretinal delivery in Xenopus., Gonzalez-Fernandez F., Mol Vis. March 23, 2011; 17 2956-69.
	The effect of the interaction between aquaporin 0 (AQP0) and the filensin tail region on AQP0 water permeability., Nakazawa Y., Mol Vis. March 23, 2011; 17 3191-9.
	Knockdown of SPARC leads to decreased cell-cell adhesion and lens cataracts during post-gastrula development in Xenopus laevis., Huynh MH., Dev Genes Evol. March 1, 2011; 220 (11-12): 315-27.
	Properties of connexin 46 hemichannels in dissociated lens fiber cells., Ebihara L., Invest Ophthalmol Vis Sci. February 1, 2011; 52 (2): 882-9.
	Transdifferentiation from cornea to lens in Xenopus laevis depends on BMP signalling and involves upregulation of Wnt signalling., Day RC., BMC Dev Biol. January 26, 2011; 11 54.
	Retinoic acid is a key regulatory switch determining the difference between lung and thyroid fates in Xenopus laevis., Wang JH., BMC Dev Biol. January 26, 2011; 11 75.
	Skeletal muscle sarcomeric SHG patterns photo-conversion by femtosecond infrared laser., Recher G., Biomed Opt Express. January 19, 2011; 2 (2): 374-84.
	Analysis of the expression of retinoic acid metabolising genes during Xenopus laevis organogenesis., Lynch J., Gene Expr Patterns. January 1, 2011; 11 (1-2): 112-7.
	Different requirement for Wnt/β-catenin signaling in limb regeneration of larval and adult Xenopus., Yokoyama H., PLoS One. January 1, 2011; 6 (7): e21721.

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