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XB-ANAT-488

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Development of the ipsilateral retinothalamic projection in the frog Xenopus laevis. II. Ingrowth of optic nerve fibers and production of ipsilaterally projecting retinal ganglion cells., Hoskins SG., J Neurosci. April 1, 1985; 5 (4): 920-9.

Development of the ipsilateral retinothalamic projection in the frog Xenopus laevis. I. Retinal distribution of ipsilaterally projecting cells in normal and experimentally manipulated frogs., Hoskins SG., J Neurosci. April 1, 1985; 5 (4): 911-9.

Relation of retinomotor responses and contractile proteins in vertebrate retinas., Drenckhahn D., Eur J Cell Biol. May 1, 1985; 37 156-68.

Cell type-specific expression of nuclear lamina proteins during development of Xenopus laevis., Benavente R., Cell. May 1, 1985; 41 (1): 177-90.                      

Reciprocal inhibitory interneurones in the Xenopus embryo spinal cord., Dale N., J Physiol. June 1, 1985; 363 61-70.

Eye-specific segregation of optic afferents in mammals, fish, and frogs: the role of activity., Schmidt JT., Cell Mol Neurobiol. June 1, 1985; 5 (1-2): 5-34.

Dynamics of tubulin structures in Xenopus laevis oogenesis., Palecek J., J Embryol Exp Morphol. June 1, 1985; 87 75-86.        

The role of visual experience in the formation of binocular projections in frogs., Udin SB., Cell Mol Neurobiol. June 1, 1985; 5 (1-2): 85-102.

Formation of retinotopic connections: selective stabilization by an activity-dependent mechanism., Schmidt JT., Cell Mol Neurobiol. June 1, 1985; 5 (1-2): 65-84.

Absence of keratan sulphate from skeletal tissues of mouse and rat., Venn G., Biochem J. June 1, 1985; 228 (2): 443-50.

A marker of early amacrine cell development in rat retina., Barnstable CJ., Dev Biol. June 1, 1985; 352 (2): 286-90.

A 38,000-dalton membrane protein (p38) present in synaptic vesicles., Jahn R., Proc Natl Acad Sci U S A. June 1, 1985; 82 (12): 4137-41.

Interaction of the transplanted olfactory placode with the optic stalk and the diencephalon in Xenopus laevis embryos., Magrassi L., Neuroscience. July 1, 1985; 15 (3): 903-21.

Induction of muscarinic cholinergic responsiveness in Xenopus oocytes by mRNA isolated from rat brain., Sugiyama H., Dev Biol. July 15, 1985; 338 (2): 346-50.

Messenger RNA from bovine retina induces kainate and glycine receptors in Xenopus oocytes., Parker I., Proc R Soc Lond B Biol Sci. July 22, 1985; 225 (1238): 99-106.

Dynamics of the control of body pattern in the development of Xenopus laevis. III. Timing and pattern after u.v. irradiation of the egg and after excision of presumptive head endo-mesoderm., Cooke J., J Embryol Exp Morphol. August 1, 1985; 88 135-50.

The efficacy of three non-mammalian test systems in the identification of chemical teratogens., Sabourin TD., J Appl Toxicol. August 1, 1985; 5 (4): 227-33.

Polymorphism of acetylcholinesterase in discrete regions of the developing human fetal brain., Zakut H., J Neurochem. August 1, 1985; 45 (2): 382-9.

Induction of nuclear envelope breakdown, chromosome condensation, and spindle formation in cell-free extracts., Lohka MJ., J Cell Biol. August 1, 1985; 101 (2): 518-23.

Specificity of motoneuron projection patterns during development of the bullfrog tadpole (Rana catesbeiana)., Farel PB., J Comp Neurol. August 1, 1985; 238 (1): 128-34.

Microtubules in immature oocytes of Xenopus laevis., Heidemann SR., J Cell Sci. August 1, 1985; 77 129-41.

Intracellular Ca2+-dependent and Ca2+-independent responses of rat brain serotonin receptors transplanted to Xenopus oocytes., Parker I., Neurosci Res. August 1, 1985; 2 (6): 491-6.

A species difference between Rana and Xenopus in the occurrence of intertectal neuronal plasticity., Kennard C., Neurosci Lett. August 5, 1985; 58 (3): 365-70.

A protein inhibitor of calmodulin-regulated cyclic nucleotide phosphodiesterase in amphibian ovaries., Jedlicki E., Arch Biochem Biophys. August 15, 1985; 241 (1): 215-24.

LDHk in the retina of diverse vertebrate species: a possible link to the Warburg effect., Saavedra RA., Exp Eye Res. September 1, 1985; 41 (3): 365-70.

The effects of the fibre environment on the paths taken by regenerating optic nerve fibres in Xenopus., Taylor JS., J Embryol Exp Morphol. October 1, 1985; 89 383-401.

Cell distributions in the retinal ganglion cell layer of adult Leptodactylid frogs after premetamorphic eye rotation., Dunlop SA., J Embryol Exp Morphol. October 1, 1985; 89 159-73.

Mesoderm induction in Xenopus laevis: a quantitative study using a cell lineage label and tissue-specific antibodies., Dale L., J Embryol Exp Morphol. October 1, 1985; 89 289-312.      

Differentiating effects of murine nerve growth factor in the peripheral and central nervous systems of Xenopus laevis tadpoles., Levi-Montalcini R., Proc Natl Acad Sci U S A. October 1, 1985; 82 (20): 7111-5.              

Vesicular transport of newly synthesized opsin from the Golgi apparatus toward the rod outer segment. Ultrastructural immunocytochemical and autoradiographic evidence in Xenopus retinas., Papermaster DS., Invest Ophthalmol Vis Sci. October 1, 1985; 26 (10): 1386-404.

Determination of tissue-type plasminogen-activator mRNA in human and non-human cell lines by dot-blot hybridization., Opdenakker G., Biochem J. October 15, 1985; 231 (2): 309-13.

A mouse homoeo box gene is expressed during embryogenesis and in adult kidney., Jackson IJ., Nature. October 24, 1985; 317 (6039): 745-8.

A review of the theories of vertebrate neurulation and their relationship to the mechanics of neural tube birth defects., Gordon R., J Embryol Exp Morphol. November 1, 1985; 89 Suppl 229-55.

Studies on the endogenous galactose-binding lectin during early development of the embryo of Xenopus laevis., Harris H., J Cell Sci. November 1, 1985; 79 105-17.

Identification of microtubule-associated proteins (MAPs) in Xenopus oocyte., Jessus C., FEBS Lett. November 11, 1985; 192 (1): 135-40.

Specific recognition of altered polypeptides by widely distributed methyltransferases., O'Connor CM., Biochem Biophys Res Commun. November 15, 1985; 132 (3): 1144-50.

A proposed neural pathway for vocalization in South African clawed frogs, Xenopus laevis., Wetzel DM., J Comp Physiol A. December 1, 1985; 157 (6): 749-61.

Factors guiding regenerating retinotectal fibres in the frog Xenopus laevis., Fawcett JW., J Embryol Exp Morphol. December 1, 1985; 90 233-50.

Map formation in the developing Xenopus retinotectal system: an examination of ganglion cell terminal arborizations., Sakaguchi DS., J Neurosci. December 1, 1985; 5 (12): 3228-45.

Characterization of mRNA responsible for induction of functional sodium channels in Xenopus oocytes., Hirono C., Dev Biol. December 16, 1985; 359 (1-2): 57-64.

[Distribution of differentiation potentials and the conditions for their realization in the amphibian neuroectoderm]., Golubeva ON., Ontogenez. January 1, 1986; 17 (6): 648-54.

Microenvironments of photoreceptor and interphotoreceptor matrix glycoconjugates., Wood JG., Histochem J. January 1, 1986; 18 (11-12): 605-12.

Identification of His5,Trp7,Tyr8-GnRH (chicken GnRH II) in amphibian brain., King JA., Peptides. January 1, 1986; 7 (5): 827-34.

[Effect of a short-term disturbance of the cell contacts on the mesodermal differentiation of clawed toad embryos]., Georgiev PG., Ontogenez. January 1, 1986; 17 (3): 256-62.

The time course of the changes in axon number of both oculomotor nerves in normal and unilaterally enucleated Xenopus laevis., Schönenberger N., Dev Biol. January 1, 1986; 389 (1-2): 169-77.

Androgen-induced myogenesis and chondrogenesis in the larynx of Xenopus laevis., Sassoon D., Dev Biol. January 1, 1986; 113 (1): 135-40.        

Estrogen-induced progestin receptors in the brain and pituitary of the South African clawed frog, Xenopus laevis., Roy EJ., Neuroendocrinology. January 1, 1986; 42 (1): 51-6.

Cell movements and novel growth patterns during early healing in regenerating embryonic Xenopus retina., Ide CF., Prog Clin Biol Res. January 1, 1986; 217B 133-6.

Naturally occurring and induced ganglion cell death. A retinal whole-mount autoradiographic study in Xenopus., Jenkins S., Anat Embryol (Berl). January 1, 1986; 174 (1): 59-66.

The action of acrosin on the zona pellucida., Urch UA., Adv Exp Med Biol. January 1, 1986; 207 113-32.

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