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	Evidence for beta 1-integrins on both apical and basal surfaces of Xenopus retinal pigment epithelium., Chen W., Exp Eye Res. January 1, 1997; 64 (1): 73-84.
	Xrx1, a novel Xenopus homeobox gene expressed during eye and pineal gland development., Casarosa S., Mech Dev. January 1, 1997; 61 (1-2): 187-98.
	In vitro lens transdifferentiation of Xenopus laevis outer cornea induced by Fibroblast Growth Factor (FGF)., Bosco L., Development. January 1, 1997; 124 (2): 421-8.
	Xefiltin, a new low molecular weight neuronal intermediate filament protein of Xenopus laevis, shares sequence features with goldfish gefiltin and mammalian alpha-internexin and differs in expression from XNIF and NF-L., Zhao Y., J Comp Neurol. January 20, 1997; 377 (3): 351-64.
	A single morphogenetic field gives rise to two retina primordia under the influence of the prechordal plate., Li H., Development. February 1, 1997; 124 (3): 603-15.
	Xenopus Brn-3.0, a POU-domain gene expressed in the developing retina and tectum. Not regulated by innervation., Hirsch N., Invest Ophthalmol Vis Sci. April 1, 1997; 38 (5): 960-9.
	Essential role of heparan sulfates in axon navigation and targeting in the developing visual system., Walz A., Development. June 1, 1997; 124 (12): 2421-30.
	Dependence of photoreceptor glutamate release on a dihydropyridine-sensitive calcium channel., Schmitz Y., Neuroscience. June 1, 1997; 78 (4): 1209-16.
	Myosin functions in Xenopus retinal ganglion cell growth cone motility in vivo., Ruchhoeft ML., J Neurobiol. June 5, 1997; 32 (6): 567-78.
	Isolation and expression of homeobox genes from the embryonic chicken eye., Dhawan RR., Mol Vis. June 11, 1997; 3 7.
	Hedgehog and patched gene expression in adult ocular tissues., Takabatake T., FEBS Lett. June 30, 1997; 410 (2-3): 485-9.
	Lens regeneration in larval Xenopus laevis: experimental analysis of the decline in the regenerative capacity during development., Filoni S., Dev Biol. July 1, 1997; 187 (1): 13-24.
	Both high- and low voltage-activated calcium currents contribute to the light-evoked responses of luminosity horizontal cells in the Xenopus retina., Akopian A., Dev Biol. July 11, 1997; 762 (1-2): 121-30.
	Basic fibroblast growth factor (FGF-2) induced transdifferentiation of retinal pigment epithelium: generation of retinal neurons and glia., Sakaguchi DS., Dev Dyn. August 1, 1997; 209 (4): 387-98.
	Isolation of a cDNA encoding a photoreceptor cell-specific actin-bundling protein: retinal fascin., Saishin Y., FEBS Lett. September 8, 1997; 414 (2): 381-6.
	Gain of rod to horizontal cell synaptic transfer: relation to glutamate release and a dihydropyridine-sensitive calcium current., Witkovsky P., J Neurosci. October 1, 1997; 17 (19): 7297-306.
	Critical role of TrkB and brain-derived neurotrophic factor in the differentiation and survival of retinal pigment epithelium., Liu ZZ., J Neurosci. November 15, 1997; 17 (22): 8749-55.
	Lens fibre transdifferentiation in cultured larval Xenopus laevis outer cornea under the influence of neural retina-conditioned medium., Bosco L., Cell Mol Life Sci. December 1, 1997; 53 (11-12): 921-8.
	Turning of retinal growth cones in a netrin-1 gradient mediated by the netrin receptor DCC., de la Torre JR., Neuron. December 1, 1997; 19 (6): 1211-24.
	Dual expression of GABA or serotonin and dopamine in Xenopus amacrine cells is transient and may be regulated by laminar cues., Huang S., Vis Neurosci. January 1, 1998; 15 (5): 969-77.
	Synchronizing retinal activity in both eyes disrupts binocular map development in the optic tectum., Brickley SG., J Neurosci. February 15, 1998; 18 (4): 1491-504.
	Cyclic AMP resets the circadian clock in cultured Xenopus retinal photoreceptor layers., Hasegawa M., J Neurochem. April 1, 1998; 70 (4): 1523-31.
	Cooperation of intrinsic and extrinsic signals in the elaboration of regional identity in the posterior cerebral cortex., Nothias F., Curr Biol. April 9, 1998; 8 (8): 459-62.
	Postgastrulation effects of fibroblast growth factor on Xenopus development., Lombardo A., Dev Dyn. May 1, 1998; 212 (1): 75-85.
	The Xenopus homologue of the Drosophila gene tailless has a function in early eye development., Hollemann T., Development. July 1, 1998; 125 (13): 2425-32.
	The genetic sequence of retinal development in the ciliary margin of the Xenopus eye., Perron M., Dev Biol. July 15, 1998; 199 (2): 185-200.
	Circadian expression of tryptophan hydroxylase mRNA in the chicken retina., Chong NW., Brain Res Mol Brain Res. October 30, 1998; 61 (1-2): 243-50.
	Fourth module of Xenopus interphotoreceptor retinoid-binding protein: activity in retinoid transfer between the retinal pigment epithelium and rod photoreceptors., Gonzalez-Fernandez F., Curr Eye Res. December 1, 1998; 17 (12): 1150-7.
	Fibroblast growth factor receptor signaling in Xenopus retinal axon extension., Lom B., J Neurobiol. December 1, 1998; 37 (4): 633-41.
	Math5 encodes a murine basic helix-loop-helix transcription factor expressed during early stages of retinal neurogenesis., Brown NL., Development. December 1, 1998; 125 (23): 4821-33.
	Melatonin receptor RNA expression in Xenopus retina., Wiechmann AF., Brain Res Mol Brain Res. January 8, 1999; 63 (2): 297-303.
	Light-induced calcium influx into retinal axons is regulated by presynaptic nicotinic acetylcholine receptor activity in vivo., Edwards JA., J Neurophysiol. February 1, 1999; 81 (2): 895-907.
	Expression of retinoic acid 4-hydroxylase (CYP26) during mouse and Xenopus laevis embryogenesis., de Roos K., Mech Dev. April 1, 1999; 82 (1-2): 205-11.
	Expression of the Vax family homeobox genes suggests multiple roles in eye development., Ohsaki K., Genes Cells. May 1, 1999; 4 (5): 267-76.
	Cloning and expression of mouse Cadherin-7, a type-II cadherin isolated from the developing eye., Faulkner-Jones BE., Mol Cell Neurosci. July 1, 1999; 14 (1): 1-16.
	Functional anatomy of the photoreceptor and second-order cell mosaics in the retina of Xenopus laevis., Wilhelm M., Cell Tissue Res. July 1, 1999; 297 (1): 35-46.
	Endothelial nitric oxide synthase (eNOS) is localized to Müller cells in all vertebrate retinas., Haverkamp S., Vision Res. July 1, 1999; 39 (14): 2299-303.
	Animal-vegetal asymmetries influence the earliest steps in retina fate commitment in Xenopus., Moore KB., Dev Biol. August 1, 1999; 212 (1): 25-41.
	Conservation of gene expression during embryonic lens formation and cornea-lens transdifferentiation in Xenopus laevis., Schaefer JJ., Dev Dyn. August 1, 1999; 215 (4): 308-18.
	Giant eyes in Xenopus laevis by overexpression of XOptx2., Zuber ME., Cell. August 6, 1999; 98 (3): 341-52.
	Nitric oxide in the retinotectal system: a signal but not a retrograde messenger during map refinement and segregation., Rentería RC., J Neurosci. August 15, 1999; 19 (16): 7066-76.
	A homeobox gene, vax2, controls the patterning of the eye dorsoventral axis., Barbieri AM., Proc Natl Acad Sci U S A. September 14, 1999; 96 (19): 10729-34.
	Photoreceptor localization of the KIF3A and KIF3B subunits of the heterotrimeric microtubule motor kinesin II in vertebrate retina., Whitehead JL., Exp Eye Res. November 1, 1999; 69 (5): 491-503.
	Brain-derived neurotrophic factor differentially regulates retinal ganglion cell dendritic and axonal arborization in vivo., Lom B., J Neurosci. November 15, 1999; 19 (22): 9928-38.
	p27Xic1, a Cdk inhibitor, promotes the determination of glial cells in Xenopus retina., Ohnuma S., Cell. November 24, 1999; 99 (5): 499-510.
	Vax1, a novel homeobox-containing gene, directs development of the basal forebrain and visual system., Hallonet M., Genes Dev. December 1, 1999; 13 (23): 3106-14.
	Expression of the Lewis group carbohydrate antigens during Xenopus development., Yoshida-Noro C., Glycobiology. December 1, 1999; 9 (12): 1323-30.
	A role for voltage-gated potassium channels in the outgrowth of retinal axons in the developing visual system., McFarlane S., J Neurosci. February 1, 2000; 20 (3): 1020-9.
	Xerl: a novel secretory protein expressed in eye and brain of Xenopus embryo., Kuriyama S., Mech Dev. May 1, 2000; 93 (1-2): 233-7.
	Expanded retina territory by midbrain transformation upon overexpression of Six6 (Optx2) in Xenopus embryos., Bernier G., Mech Dev. May 1, 2000; 93 (1-2): 59-69.

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