Papers associated with regenerating lens

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	Characterizing gene expression during lens formation in Xenopus laevis: evaluating the model for embryonic lens induction., Henry JJ., Dev Dyn. June 1, 2002; 224 (2): 168-85.
	L-Maf, a downstream target of Pax6, is essential for chick lens development., Reza HM., Mech Dev. August 1, 2002; 116 (1-2): 61-73.
	Xenopus tropicalis transgenic lines and their use in the study of embryonic induction., Hirsch N., Dev Dyn. December 1, 2002; 225 (4): 522-35.
	Xenopus, the next generation: X. tropicalis genetics and genomics., Hirsch N., Dev Dyn. December 1, 2002; 225 (4): 422-33.
	Concentration dependence of inductive activity in the mixture of lens epithelium proteins., Zemchikhina VN., Tsitologiia. January 1, 2003; 45 (10): 1027-31.
	In vitro induction and transplantation of eye during early Xenopus development., Sedohara A., Dev Growth Differ. January 1, 2003; 45 (5-6): 463-71.
	The stability of the lens-specific Maf protein is regulated by fibroblast growth factor (FGF)/ERK signaling in lens fiber differentiation., Ochi H., J Biol Chem. January 3, 2003; 278 (1): 537-44.
	Xenopus neurula left-right asymmetry is respeficied by microinjecting TGF-beta5 protein., Mogi K., Int J Dev Biol. February 1, 2003; 47 (1): 15-29.
	Equarin, a novel soluble molecule expressed with polarity at chick embryonic lens equator, is involved in eye formation., Mu H., Mech Dev. February 1, 2003; 120 (2): 143-55.
	Eye regeneration at the molecular age., Del Rio-Tsonis K., Dev Dyn. February 1, 2003; 226 (2): 211-24.
	Darmin is a novel secreted protein expressed during endoderm development in Xenopus., Pera EM., Gene Expr Patterns. May 1, 2003; 3 (2): 147-52.
	Xenopus X-box binding protein 1, a leucine zipper transcription factor, is involved in the BMP signaling pathway., Zhao H., Dev Biol. May 15, 2003; 257 (2): 278-91.
	A requirement for MAP kinase in the assembly and maintenance of the mitotic spindle., Horne MM., J Cell Biol. June 23, 2003; 161 (6): 1021-8.
	Molecular pathways needed for regeneration of spinal cord and muscle in a vertebrate., Beck CW., Dev Cell. September 1, 2003; 5 (3): 429-39.
	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.
	Water permeability of C-terminally truncated aquaporin 0 (AQP0 1-243) observed in the aging human lens., Ball LE., Invest Ophthalmol Vis Sci. November 1, 2003; 44 (11): 4820-8.
	Roles of Maf family proteins in lens development., Reza HM., Dev Dyn. March 1, 2004; 229 (3): 440-8.
	Molecular profiling: gene expression reveals discrete phases of lens induction and development in Xenopus laevis., Walter BE., Mol Vis. March 24, 2004; 10 186-98.
	Neural induction in Xenopus: requirement for ectodermal and endomesodermal signals via Chordin, Noggin, beta-Catenin, and Cerberus., Kuroda H., PLoS Biol. May 1, 2004; 2 (5): E92.
	Molecular cloning, functional analysis, and RNA expression analysis of connexin45.6: a zebrafish cardiovascular connexin., Christie TL., Am J Physiol Heart Circ Physiol. May 1, 2004; 286 (5): H1623-32.
	Early expression of thyroid hormone receptor beta and retinoid X receptor gamma in the Xenopus embryo., Cossette SM., Differentiation. June 1, 2004; 72 (5): 239-49.
	FGF2 triggers iris-derived lens regeneration in newt eye., Hayashi T., Mech Dev. June 1, 2004; 121 (6): 519-26.
	Molecular anatomy of placode development in Xenopus laevis., Schlosser G., Dev Biol. July 15, 2004; 271 (2): 439-66.
	Early regeneration genes: Building a molecular profile for shared expression in cornea-lens transdifferentiation and hindlimb regeneration in Xenopus laevis., Wolfe AD., Dev Dyn. August 1, 2004; 230 (4): 615-29.
	Connexin 48.5 is required for normal cardiovascular function and lens development in zebrafish embryos., Cheng S., J Biol Chem. August 27, 2004; 279 (35): 36993-7003.
	Pbx genes are required in Xenopus lens development., Morgan R., Int J Dev Biol. September 1, 2004; 48 (7): 623-7.
	Temporal expression of L-Maf and RaxL in developing chicken retina are arranged into mosaic pattern., Ochi H., Gene Expr Patterns. September 1, 2004; 4 (5): 489-94.
	Exchange of gating properties between rat cx46 and chicken cx45.6., Tong JJ., Biophys J. October 1, 2004; 87 (4): 2397-406.
	Localization of Mel1b melatonin receptor-like immunoreactivity in ocular tissues of Xenopus laevis., Wiechmann AF., Exp Eye Res. October 1, 2004; 79 (4): 585-94.
	Sequence and functional conservation of the intergenic region between the head-to-head genes encoding the small heat shock proteins alphaB-crystallin and HspB2 in the mammalian lineage., Doerwald L., J Mol Evol. November 1, 2004; 59 (5): 674-86.
	Connexins are mechanosensitive., Bao L., Am J Physiol Cell Physiol. November 1, 2004; 287 (5): C1389-95.
	Xenopus laevis FoxE1 is primarily expressed in the developing pituitary and thyroid., El-Hodiri HM., Int J Dev Biol. January 1, 2005; 49 (7): 881-4.
	Lens-forming competence in the epidermis of Xenopus laevis during development., Arresta E., J Exp Zool A Comp Exp Biol. January 1, 2005; 303 (1): 1-12.
	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.
	Generation of transgenic newt Cynops pyrrhogaster for regeneration study., Ueda Y., Genesis. February 1, 2005; 41 (2): 87-98.
	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.
	Regulation of aquaporin water permeability in the lens., Varadaraj K., Invest Ophthalmol Vis Sci. April 1, 2005; 46 (4): 1393-402.
	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.
	Novel soluble molecule, Akhirin, is expressed in the embryonic chick eyes and exhibits heterophilic cell-adhesion activity., Ahsan M., Dev Dyn. May 1, 2005; 233 (1): 95-104.
	The 5'-AT-rich half-site of Maf recognition element: a functional target for bZIP transcription factor Maf., Yoshida T., Nucleic Acids Res. June 21, 2005; 33 (11): 3465-78.
	Phylogenomic analysis and expression patterns of large Maf genes in Xenopus tropicalis provide new insights into the functional evolution of the gene family in osteichthyans., Coolen M., Dev Genes Evol. July 1, 2005; 215 (7): 327-39.
	"Optical patch-clamping": single-channel recording by imaging Ca2+ flux through individual muscle acetylcholine receptor channels., Demuro A., J Gen Physiol. September 1, 2005; 126 (3): 179-92.
	Urochordate betagamma-crystallin and the evolutionary origin of the vertebrate eye lens., Shimeld SM., Curr Biol. September 20, 2005; 15 (18): 1684-9.
	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.
	Lens and retina formation require expression of Pitx3 in Xenopus pre-lens ectoderm., Khosrowshahian F., Dev Dyn. November 1, 2005; 234 (3): 577-89.
	Regulation of connexin hemichannels by monovalent cations., Srinivas M., J Gen Physiol. January 1, 2006; 127 (1): 67-75.
	Neuronal leucine-rich repeat 6 (XlNLRR-6) is required for late lens and retina development in Xenopus laevis., Wolfe AD., Dev Dyn. April 1, 2006; 235 (4): 1027-41.
	Expression of p27BBP/eIF6 is highly modulated during Xenopus laevis embryogenesis., Vaccaro MC., Mol Reprod Dev. April 1, 2006; 73 (4): 482-90.
	Purification of NADPH-P450 reductase (NPR) from Xenopus laevis and the developmental change in NPR expression., Mori T., Life Sci. June 13, 2006; 79 (3): 247-51.
	Induction and specification of cranial placodes., Schlosser G., Dev Biol. June 15, 2006; 294 (2): 303-51.

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