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	Glycinergic contacts in the outer plexiform layer of the Xenopus laevis retina characterized by antibodies to glycine, GABA and glycine receptors., Smiley JF., J Comp Neurol. September 15, 1990; 299 (3): 375-88.
	Slow light and dark adaptation of horizontal cells in the Xenopus retina: a role for endogenous dopamine., Witkovsky P., Vis Neurosci. October 1, 1990; 5 (4): 405-13.
	Transdifferentiation of larval Xenopus laevis iris under the influence of the pituitary., Cioni C., Experientia. October 15, 1990; 46 (10): 1078-80.
	A chromatic horizontal cell in the Xenopus retina: intracellular staining and synaptic pharmacology., Stone S., J Neurophysiol. December 1, 1990; 64 (6): 1683-94.
	The early development of the frog retinotectal projection., Taylor JS., Development. January 1, 1991; Suppl 2 95-104.
	Microinjection of fluorescent tracers to study neural cell lineages., Wetts R., Development. January 1, 1991; Suppl 2 1-8.
	A method for the demonstration of NADPH-diaphorase activity in anuran species using unfixed retinal wholemounts., Gábriel R., Arch Histol Cytol. May 1, 1991; 54 (2): 207-11.
	The eye in the brain: retinoic acid effects morphogenesis of the eye and pathway selection of axons but not the differentiation of the retina in Xenopus laevis., Manns M., Neurosci Lett. June 24, 1991; 127 (2): 150-4.
	Physiological and morphological properties of off- and on-center bipolar cells in the Xenopus retina: effects of glycine and GABA., Stone S., Vis Neurosci. October 1, 1991; 7 (4): 363-76.
	Serotonin synthesis and accumulation by neurons of the anuran retina., Zhu B., Vis Neurosci. January 1, 1992; 9 (3-4): 377-88.
	Spatio-temporal patterns of retinal ganglion cell death during Xenopus development., Gaze RM., J Comp Neurol. January 15, 1992; 315 (3): 264-74.
	Light-sensitive melatonin synthesis by Xenopus photoreceptors after destruction of the inner retina., Cahill GM., Vis Neurosci. May 1, 1992; 8 (5): 487-90.
	Involvement of neuronal cell surface molecule B2 in the formation of retinal plexiform layers., Ohta K., Neuron. July 1, 1992; 9 (1): 151-61.
	Identification and developmental expression of a novel low molecular weight neuronal intermediate filament protein expressed in Xenopus laevis., Charnas LR., J Neurosci. August 1, 1992; 12 (8): 3010-24.
	Light-evoked changes in near-infrared transmission by the ON and OFF channels of the anuran retina., Dawis SM., Vis Neurosci. January 1, 1993; 10 (4): 687-92.
	Early opsin expression in Xenopus embryos precedes photoreceptor differentiation., Saha MS., Brain Res Mol Brain Res. March 1, 1993; 17 (3-4): 307-18.
	Interphotoreceptor retinoid-binding protein (IRBP), a major 124 kDa glycoprotein in the interphotoreceptor matrix of Xenopus laevis. Characterization, molecular cloning and biosynthesis., Gonzalez-Fernandez F., J Cell Sci. May 1, 1993; 105 ( Pt 1) 7-21.
	A Xenopus homebox gene defines dorsal-ventral domains in the developing brain., Saha MS., Development. May 1, 1993; 118 (1): 193-202.
	Ipsilaterally projecting retinal ganglion cells in Xenopus laevis: an HRP study., Schütte M., J Comp Neurol. May 22, 1993; 331 (4): 482-94.
	A Zn-finger protein, Xfin, is expressed during cone differentiation in the retina of the frog Xenopus laevis., Rijli FM., Int J Dev Biol. June 1, 1993; 37 (2): 311-7.
	Synaptic contacts of serotonin-like immunoreactive and 5,7-dihydroxytryptamine-accumulating neurons in the anuran retina., Gábriel R., Neuroscience. June 1, 1993; 54 (4): 1103-14.
	Function and spatial distribution in developing chick retina of the laminin receptor alpha 6 beta 1 and its isoforms., de Curtis I., Development. June 1, 1993; 118 (2): 377-88.
	A discrete group of melanin containing cells are coincident with a major reorganization of retinal ganglion cell axons in the optic nerve of Xenopus., Taylor JS., J Neurocytol. November 1, 1993; 22 (11): 1007-16.
	Effects of submicromolar concentrations of dopamine on photoreceptor to horizontal cell communication., Krizaj D., Dev Biol. November 5, 1993; 627 (1): 122-8.
	A novel GABA receptor on bipolar cell terminals in the tiger salamander retina., Lukasiewicz PD., J Neurosci. March 1, 1994; 14 (3 Pt 1): 1202-12.
	BDNF in the development of the visual system of Xenopus., Cohen-Cory S., Neuron. April 1, 1994; 12 (4): 747-61.
	Reattachment of retinas to cultured pigment epithelial monolayers from Xenopus laevis., Defoe DM., Invest Ophthalmol Vis Sci. April 1, 1994; 35 (5): 2466-76.
	Modulation of transient outward potassium current by GTP, calcium, and glutamate in horizontal cells of the Xenopus retina., Akopian A., J Neurophysiol. May 1, 1994; 71 (5): 1661-71.
	The return of phosphorylated and nonphosphorylated epitopes of neurofilament proteins to the regenerating optic nerve of Xenopus laevis., Zhao Y., J Comp Neurol. May 1, 1994; 343 (1): 158-72.
	Tryptophan hydroxylase expression is regulated by a circadian clock in Xenopus laevis retina., Green CB., J Neurochem. June 1, 1994; 62 (6): 2420-8.
	White noise analysis of a chromatic type horizontal cell in the Xenopus retina., Stone SL., J Gen Physiol. June 1, 1994; 103 (6): 991-1017.
	Serotonergic and serotonin-synthesizing cells of the Xenopus retina., Schütte M., Int J Neurosci. September 1, 1994; 78 (1-2): 67-73.
	The expression pattern of two zebrafish achaete-scute homolog (ash) genes is altered in the embryonic brain of the cyclops mutant., Allende ML., Dev Biol. December 1, 1994; 166 (2): 509-30.
	CNS myelin and oligodendrocytes of the Xenopus spinal cord--but not optic nerve--are nonpermissive for axon growth., Lang DM., J Neurosci. January 1, 1995; 15 (1 Pt 1): 99-109.
	Development of the interphotoreceptor matrix in Xenopus laevis., Lahiri D., J Morphol. March 1, 1995; 223 (3): 325-39.
	Chimeric integrins expressed in retinal ganglion cells impair process outgrowth in vivo., Lilienbaum A., Mol Cell Neurosci. April 1, 1995; 6 (2): 139-52.
	The matured eye of Xenopus laevis tadpoles produces factors that elicit a lens-forming response in embryonic ectoderm., Henry JJ., Dev Biol. September 1, 1995; 171 (1): 39-50.
	Early expression of a novel radial glia antigen in the chick embryo., Prada FA., Glia. December 1, 1995; 15 (4): 389-400.
	The number and distribution of bipolar to ganglion cell synapses in the inner plexiform layer of the anuran retina., Buzás P., Vis Neurosci. January 1, 1996; 13 (6): 1099-107.
	A Xenopus gene, Xbr-1, defines a novel class of homeobox genes and is expressed in the dorsal ciliary margin of the eye., Papalopulu N., Dev Biol. February 25, 1996; 174 (1): 104-14.
	Use of a high stringency differential display screen for identification of retinal mRNAs that are regulated by a circadian clock., Green CB., Brain Res Mol Brain Res. April 1, 1996; 37 (1-2): 157-65.
	Exogenous nitric oxide causes collapse of retinal ganglion cell axonal growth cones in vitro., Rentería RC., J Neurobiol. April 1, 1996; 29 (4): 415-28.
	Inhibition of protein tyrosine kinases impairs axon extension in the embryonic optic tract., Worley T., J Neurosci. April 1, 1996; 16 (7): 2294-306.
	Interphotoreceptor retinoid-binding protein (IRBP): expression in the adult and developing Xenopus retina., Hessler RB., J Comp Neurol. April 8, 1996; 367 (3): 329-41.
	Expression and herbimycin A-sensitive localization of pp125FAK in retinal growth cones., Worley TL., Neuroreport. April 26, 1996; 7 (6): 1133-7.
	Inhibition of FGF receptor activity in retinal ganglion cell axons causes errors in target recognition., McFarlane S., Neuron. August 1, 1996; 17 (2): 245-54.
	Glutamate release by the intact light-responsive photoreceptor layer of the Xenopus retina., Schmitz Y., J Neurosci Methods. September 1, 1996; 68 (1): 55-60.
	Three homologs of rds/peripherin in Xenopus laevis photoreceptors that exhibit covalent and non-covalent interactions., Kedzierski W., J Cell Sci. October 1, 1996; 109 ( Pt 10) 2551-60.
	The cellular patterns of BDNF and trkB expression suggest multiple roles for BDNF during Xenopus visual system development., Cohen-Cory S., Dev Biol. October 10, 1996; 179 (1): 102-15.
	Genesis of the frog retinal pigment epithelium., Beazley LD., Brain Res Dev Brain Res. October 23, 1996; 96 (1-2): 290-4.

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