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Summary Anatomy Item Literature (704) Expression Attributions Wiki
XB-ANAT-772

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No change in NMDA receptor-mediated response rise-time during development: evidence against transmitter spillover., Haas K., Neuropharmacology. January 1, 1998; 37 (10-11): 1393-8.

Evidence for covalent modification of the nuclear dot-associated proteins PML and Sp100 by PIC1/SUMO-1., Sternsdorf T., J Cell Biol. December 29, 1997; 139 (7): 1621-34.   


Nitric oxide synthase and background adaptation in Xenopus laevis., Allaerts W., J Chem Neuroanat. December 1, 1997; 14 (1): 21-31.

Xefiltin, a Xenopus laevis neuronal intermediate filament protein, is expressed in actively growing optic axons during development and regeneration., Zhao Y., J Neurobiol. November 20, 1997; 33 (6): 811-24.   


A major glycoprotein of Xenopus egg vitelline envelope, gp41, is a frog homolog of mammalian ZP3., Kubo H., Dev Growth Differ. August 1, 1997; 39 (4): 405-17.   


Cloning and developmental expression of 5-HT1A receptor gene in Xenopus laevis., Marracci S., Brain Res Mol Brain Res. July 1, 1997; 47 (1-2): 67-77.   


Distribution of choline acetyltransferase immunoreactivity in the brain of anuran (Rana perezi, Xenopus laevis) and urodele (Pleurodeles waltl) amphibians., Marín O., J Comp Neurol. June 16, 1997; 382 (4): 499-534.   


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.   


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.

The contribution of protein kinases to plastic events in the superior colliculus., McCrossan D., Prog Neuropsychopharmacol Biol Psychiatry. April 1, 1997; 21 (3): 487-505.

Basal ganglia organization in amphibians: efferent connections of the striatum and the nucleus accumbens., Marín O., J Comp Neurol. March 31, 1997; 380 (1): 23-50.

Spinal ascending pathways in amphibians: cells of origin and main targets., Muñoz A., J Comp Neurol. February 10, 1997; 378 (2): 205-28.

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.   


Insertional mutagenesis in zebrafish identifies two novel genes, pescadillo and dead eye, essential for embryonic development., Allende ML., Genes Dev. December 15, 1996; 10 (24): 3141-55.

Localization of nitric oxide synthase in the brain of the frog, Xenopus laevis., Brüning G., Dev Biol. November 25, 1996; 741 (1-2): 331-43.   


Perturbation of the developing Xenopus retinotectal projection following injections of antibodies against beta1 integrin receptors and N-cadherin., Stone KE., Dev Biol. November 25, 1996; 180 (1): 297-310.

Patterns of distal-less gene expression and inductive interactions in the head of the direct developing frog Eleutherodactylus coqui., Fang H., Dev Biol. October 10, 1996; 179 (1): 160-72.   


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.   


A novel transmembrane protein with epidermal growth factor and follistatin domains expressed in the hypothalamo-hypophysial axis of Xenopus laevis., Eib DW., J Neurochem. September 1, 1996; 67 (3): 1047-55.

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.

Integrin alpha 6 expression is required for early nervous system development in Xenopus laevis., Lallier TE., Development. August 1, 1996; 122 (8): 2539-54.   


Nitric oxide synthase in the brain of a urodele amphibian (Pleurodeles waltl) and its relation to catecholaminergic neuronal structures., González A., Dev Biol. July 15, 1996; 727 (1-2): 49-64.

Immunohistochemical investigation of gamma-aminobutyric acid ontogeny and transient expression in the central nervous system of Xenopus laevis tadpoles., Barale E., J Comp Neurol. April 29, 1996; 368 (2): 285-94.

The LIM homeodomain protein Lim-1 is widely expressed in neural, neural crest and mesoderm derivatives in vertebrate development., Karavanov AA., Int J Dev Biol. April 1, 1996; 40 (2): 453-61.   


Inhibition of protein tyrosine kinases impairs axon extension in the embryonic optic tract., Worley T., J Neurosci. April 1, 1996; 16 (7): 2294-306.

Factors responsible for the establishment of the body plan in the amphibian embryo., Grunz H., Int J Dev Biol. February 1, 1996; 40 (1): 279-89.   


Developmental expression of a neuron-specific beta-tubulin in frog (Xenopus laevis): a marker for growing axons during the embryonic period., Moody SA., J Comp Neurol. January 8, 1996; 364 (2): 219-30.   


Larval development of tectal efferents and afferents in Xenopus laevis (Amphibia Anura)., Chahoud BH., J Hirnforsch. January 1, 1996; 37 (4): 519-35.

Polysialylated neural cell adhesion molecule and plasticity of ipsilateral connections in Xenopus tectum., Williams DK., Neuroscience. January 1, 1996; 70 (1): 277-85.

Anuran dorsal column nucleus: organization, immunohistochemical characterization, and fiber connections in Rana perezi and Xenopus laevis., Muñoz A., J Comp Neurol. December 11, 1995; 363 (2): 197-220.

Differential effects of retinoic acid and a retinoid antagonist on the spatial distribution of the homeoprotein Hoxb-7 in vertebrate embryos., López SL., Dev Dyn. December 1, 1995; 204 (4): 457-71.   


Expression of truncated Sek-1 receptor tyrosine kinase disrupts the segmental restriction of gene expression in the Xenopus and zebrafish hindbrain., Xu Q., Development. December 1, 1995; 121 (12): 4005-16.   


Early expression of a novel radial glia antigen in the chick embryo., Prada FA., Glia. December 1, 1995; 15 (4): 389-400.

Effects of brain-derived neurotrophic factor on optic axon branching and remodelling in vivo., Cohen-Cory S., Nature. November 9, 1995; 378 (6553): 192-6.

FGF signaling and target recognition in the developing Xenopus visual system., McFarlane S., Neuron. November 1, 1995; 15 (5): 1017-28.

Absence of topography in precociously innervated tecta., Chien CB., Development. August 1, 1995; 121 (8): 2621-31.

Molecular analysis and developmental expression of the focal adhesion kinase pp125FAK in Xenopus laevis., Hens MD., Dev Biol. August 1, 1995; 170 (2): 274-88.   


Presynaptic differentiation induced in cultured neurons by local application of basic fibroblast growth factor., Dai Z., J Neurosci. August 1, 1995; 15 (8): 5466-75.

Expression of a cell adhesion molecule, neuropilin, in the developing chick nervous system., Takagi S., Dev Biol. July 1, 1995; 170 (1): 207-22.

Plexin: a novel neuronal cell surface molecule that mediates cell adhesion via a homophilic binding mechanism in the presence of calcium ions., Ohta K., Neuron. June 1, 1995; 14 (6): 1189-99.   


The optic tract and tectal ablation influence the composition of neurofilaments in regenerating optic axons of Xenopus laevis., Zhao Y., J Neurosci. June 1, 1995; 15 (6): 4629-40.   


Developmental changes in melanin-concentrating hormone in Rana temporaria., Francis K., Gen Comp Endocrinol. May 1, 1995; 98 (2): 157-65.   


Immunochemical localization of calcium/calmodulin-dependent protein kinase I., Picciotto MR., Synapse. May 1, 1995; 20 (1): 75-84.

Infection of frog neurons with vaccinia virus permits in vivo expression of foreign proteins., Wu GY., Neuron. April 1, 1995; 14 (4): 681-4.

Frog prohormone convertase PC2 mRNA has a mammalian-like expression pattern in the central nervous system and is colocalized with a subset of thyrotropin-releasing hormone-expressing neurons., Pu LP., J Comp Neurol. March 27, 1995; 354 (1): 71-86.

XIdx, a dominant negative regulator of bHLH function in early Xenopus embryos., Wilson R., Mech Dev. February 1, 1995; 49 (3): 211-22.   


Differential intertectal delay between Rana pipiens and Xenopus laevis: implications for species-specific visual plasticity., Scherer WJ., Vis Neurosci. January 1, 1995; 12 (5): 1007-11.

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.   


Brain regions and encephalization in anurans: adaptation or stability?, Taylor GM., Brain Behav Evol. January 1, 1995; 45 (2): 96-109.

Experience-dependent mechanism of binocular map plasticity in Xenopus: incongruent connections are masked by retinal input., Brickley SG., Neurosci Lett. November 21, 1994; 182 (1): 13-6.

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