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	Optic fibers follow aberrant pathways from rotated eyes in Xenopus laevis., Grant P., J Comp Neurol. August 15, 1986; 250 (3): 364-76.
	Initial events in the formation of neuromuscular synapse: rapid induction of acetylcholine release from embryonic neuron., Xie ZP., Proc Natl Acad Sci U S A. September 1, 1986; 83 (18): 7069-73.
	Neurites show pathway specificity but lack directional specificity or predetermined lengths in Xenopus embryos., Huang S., J Neurobiol. November 1, 1986; 17 (6): 593-603.
	Control of neuron shape during development and regeneration., Cohen MJ., Neurochem Pathol. December 1, 1986; 5 (3): 331-43.
	A glia-derived neurite promoting factor with protease inhibitory activity belongs to the protease nexins., Gloor S., Cell. December 5, 1986; 47 (5): 687-93.
	Center-surround organization of Xenopus horizontal cells and its modification by gamma-aminobutyric acid and strontium., Stone S., Exp Biol. January 1, 1987; 47 (1): 1-12.
	Development of presynaptic specializations induced by basic polypeptide-coated latex beads in spinal cord cultures., Peng HB., Synapse. January 1, 1987; 1 (1): 10-9.
	Vasopressin promotes neurite growth in cultured embryonic neurons., Brinton RE., Synapse. January 1, 1987; 1 (4): 329-34.
	The trochlear nerve of amphibians and its relation to proprioceptive fibers: a qualitative and quantitative HRP study., Fritzsch B., Anat Embryol (Berl). January 1, 1987; 177 (2): 105-14.
	Neural cell adhesion molecule expression in Xenopus embryos., Balak K., Dev Biol. February 1, 1987; 119 (2): 540-50.
	The distribution of F-actin in cells isolated from vertebrate retinas., Vaughan DK., Exp Eye Res. March 1, 1987; 44 (3): 393-406.
	Evoked release of acetylcholine from the growing embryonic neuron., Sun YA., Proc Natl Acad Sci U S A. April 1, 1987; 84 (8): 2540-4.
	Spinal neurite reabsorption and regrowth in vitro depend on the polarity of an applied electric field., McCaig CD., Development. May 1, 1987; 100 (1): 31-41.
	Mode of growth of retinal axons within the tectum of Xenopus tadpoles, and implications in the ordered neuronal connection between the retina and the tectum., Fujisawa H., J Comp Neurol. June 1, 1987; 260 (1): 127-39.
	The early development of neurons with GABA immunoreactivity in the CNS of Xenopus laevis embryos., Roberts A., J Comp Neurol. July 15, 1987; 261 (3): 435-49.
	Changes in neural cell adhesion molecule (NCAM) structure during vertebrate neural development., Sunshine J., Proc Natl Acad Sci U S A. August 1, 1987; 84 (16): 5986-90.
	Distribution of synaptic specializations along isolated motor units formed in Xenopus nerve-muscle cultures., Cohen MW., J Neurosci. September 1, 1987; 7 (9): 2849-61.
	Axonal growth cones in the developing amphibian spinal cord., Nordlander RH., J Comp Neurol. September 22, 1987; 263 (4): 485-96.
	Innervation and behaviour of ectopic limbs in Xenopus., Harrison PH., Dev Biol. November 1, 1987; 433 (1): 89-100.
	The development of a population of spinal cord neurons and their axonal projections revealed by GABA immunocytochemistry in frog embryos., Dale N., Proc R Soc Lond B Biol Sci. November 23, 1987; 232 (1267): 205-15.
	The morphology and distribution of 'Kolmer-Agduhr cells', a class of cerebrospinal-fluid-contacting neurons revealed in the frog embryo spinal cord by GABA immunocytochemistry., Dale N., Proc R Soc Lond B Biol Sci. November 23, 1987; 232 (1267): 193-203.
	The ultrastructural organization of the isthmic nucleus in Xenopus., McCart R., Anat Embryol (Berl). January 1, 1988; 177 (4): 325-30.
	A glial cell line promotes the outgrowth of neurites from embryonic Xenopus retina., Sakaguchi DS., Acta Biol Hung. January 1, 1988; 39 (2-3): 201-9.
	In vitro analysis of specificity during nerve-muscle synaptogenesis., Sanes DH., Ciba Found Symp. January 1, 1988; 138 116-30.
	A developmental and ultrastructural study of the optic chiasma in Xenopus., Wilson MA., Development. March 1, 1988; 102 (3): 537-53.
	Antibody against myelin-associated inhibitor of neurite growth neutralizes nonpermissive substrate properties of CNS white matter., Caroni P., Neuron. March 1, 1988; 1 (1): 85-96.
	The development of acetylcholinesterase activity in the embryonic nervous system of the frog, Xenopus laevis., Moody SA., Dev Biol. April 1, 1988; 467 (2): 225-32.
	Spatial regulation of axonal glycoprotein expression on subsets of embryonic spinal neurons., Dodd J., Neuron. April 1, 1988; 1 (2): 105-16.
	Excessive numbers of axons after early enucleation and blockade of metamorphosis in the oculomotor nerve of Xenopus laevis., Schönenberger N., Dev Biol. May 16, 1988; 468 (2): 253-60.
	Dopamine modifies the balance of rod and cone inputs to horizontal cells of the Xenopus retina., Witkovsky P., Dev Biol. May 24, 1988; 449 (1-2): 332-6.
	Development and characterization of commissural interneurones in the spinal cord of Xenopus laevis embryos revealed by antibodies to glycine., Roberts A., Development. July 1, 1988; 103 (3): 447-61.
	Merkel cells and the mechanosensitivity of normal and regenerating nerves in Xenopus skin., Mearow KM., Neuroscience. August 1, 1988; 26 (2): 695-708.
	Morphology and synaptic connections of HRP-filled, axon-bearing horizontal cells in the Xenopus retina., Witkovsky P., J Comp Neurol. September 1, 1988; 275 (1): 29-38.
	Lack of axon regeneration of isthmic neurons in juvenile Xenopus., McCart R., Neurosci Lett. October 5, 1988; 92 (2): 143-8.
	Axon guidance and the patterning of neuronal projections in vertebrates., Dodd J., Science. November 4, 1988; 242 (4879): 692-9.
	Development of early swimming in Xenopus laevis embryos: myotomal musculature, its innervation and activation., van Mier P., Neuroscience. January 1, 1989; 32 (1): 113-26.
	Morphological characterization of substance P-like immunoreactive amacrine cells in the anuran retina., Hiscock J., Vision Res. January 1, 1989; 29 (3): 293-301.
	In vitro analysis of position- and lineage-dependent selectivity in the formation of neuromuscular synapses., Sanes DH., Neuron. March 1, 1989; 2 (3): 1237-44.
	Low-concentration N-acetylaspartylglutamate suppresses the climbing fiber response of Purkinje cells in guinea pig cerebellar slices and the responses to excitatory amino acids of Xenopus laevis oocytes injected with cerebellar mRNA., Sekiguchi M., Dev Biol. March 13, 1989; 482 (1): 87-96.
	Studies of nerve-muscle interactions in Xenopus cell culture: analysis of early synaptic currents., Evers J., J Neurosci. May 1, 1989; 9 (5): 1523-39.
	Cytokeratin filaments and desmosomes in the epithelioid cells of the perineurial and arachnoidal sheaths of some vertebrate species., Achtstätter T., Differentiation. May 1, 1989; 40 (2): 129-49.
	Junction between parent and daughter axons in regenerating myelinated nerve: properties of structure and rapid axonal transport., Chan H., J Comp Neurol. May 15, 1989; 283 (3): 391-404.
	In vitro growth properties of Xenopus retinal neurons undergo developmental modulation., Grant P., Dev Biol. June 1, 1989; 133 (2): 502-14.
	Morphology of afferent synapses in the Mauthner cell of larval Xenopus laevis., Cioni C., J Comp Neurol. June 8, 1989; 284 (2): 205-14.
	Growth cone interactions with a glial cell line from embryonic Xenopus retina., Sakaguchi DS., Dev Biol. July 1, 1989; 134 (1): 158-74.
	Spatial and temporal expression of phosphorylated and non-phosphorylated forms of neurofilament proteins in the developing nervous system of Xenopus laevis., Szaro BG., Brain Res Dev Brain Res. July 1, 1989; 48 (1): 87-103.
	Nerve growth in the absence of growth cone filopodia and the effects of a small applied electric field., McCaig CD., J Cell Sci. August 1, 1989; 93 ( Pt 4) 715-21.
	Studies on the mechanism of embryonic frog nerve orientation in a small applied electric field., McCaig CD., J Cell Sci. August 1, 1989; 93 ( Pt 4) 723-30.
	An epithelium-type cytoskeleton in a glial cell: astrocytes of amphibian optic nerves contain cytokeratin filaments and are connected by desmosomes., Rungger-Brändle E., J Cell Biol. August 1, 1989; 109 (2): 705-16.
	A single-cell analysis of early retinal ganglion cell differentiation in Xenopus: from soma to axon tip., Holt CE., J Neurosci. September 1, 1989; 9 (9): 3123-45.

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