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Summary Anatomy Item Literature (3352) Expression Attributions Wiki
XB-ANAT-302

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A possible neurotransmitter role for CGRP in a hair-cell sensory organ., Adams JC., Dev Biol. September 1, 1987; 419 (1-2): 347-51.

Axonal growth cones in the developing amphibian spinal cord., Nordlander RH., J Comp Neurol. September 22, 1987; 263 (4): 485-96.

Relationship between natural variations in motoneuron number and body size in Xenopus laevis: a test for size matching., Sperry DG., J Comp Neurol. October 8, 1987; 264 (2): 250-67.

Neural crest development in the Xenopus laevis embryo, studied by interspecific transplantation and scanning electron microscopy., Sadaghiani B., Dev Biol. November 1, 1987; 124 (1): 91-110.

[Axonal projections of the cells of the dorsal ganglia in the lumbar segments of the spinal cord in tadpoles of the toad Xenopus laevis]., Shupliakov OV., Zh Evol Biokhim Fiziol. January 1, 1988; 24 (5): 715-20.

Structural analysis of the mitotic cycle in pre-gastrula Xenopus embryos., Montag M., Chromosoma. January 1, 1988; 96 (3): 187-96.

Horseradish peroxidase study of tectal afferents in Xenopus laevis with special emphasis on their relationship to the lateral-line system., Zittlau KE., Brain Behav Evol. January 1, 1988; 32 (4): 208-19.

Somitomeres: mesodermal segments of vertebrate embryos., Jacobson AG., Development. January 1, 1988; 104 Suppl 209-20.  

Processing of wave patterns in the lateral line system parallels to auditory processing., Elepfandt A., Acta Biol Hung. January 1, 1988; 39 (2-3): 251-65.

The distribution of tenascin coincides with pathways of neural crest cell migration., Mackie EJ., Development. January 1, 1988; 102 (1): 237-50.              

The development of primary afferents to the lumbar spinal cord in Xenopus laevis., van Mier P., Neurosci Lett. January 11, 1988; 84 (1): 35-40.

Dorsal roots are absent from the tail of larval Xenopus., Nordlander RH., Dev Biol. February 9, 1988; 440 (2): 391-5.

Early cross-striation formation in twitching Xenopus myocytes in culture., Kidokoro Y., Proc Natl Acad Sci U S A. March 1, 1988; 85 (6): 1978-82.

Regional expression, pattern and timing of convergence and extension during gastrulation of Xenopus laevis., Keller R., Development. May 1, 1988; 103 (1): 193-209.

Mapping of neural crest pathways in Xenopus laevis using inter- and intra-specific cell markers., Krotoski DM., Dev Biol. May 1, 1988; 127 (1): 119-32.

Microinjection of synthetic Xhox-1A homeobox mRNA disrupts somite formation in developing Xenopus embryos., Harvey RP., Cell. June 3, 1988; 53 (5): 687-97.              

The first cleavage plane and the embryonic axis are determined by separate mechanisms in Xenopus laevis. II. Experimental dissociation by lateral compression of the egg., Black SD., Dev Biol. July 1, 1988; 128 (1): 65-71.

Development of myotomal cells in Xenopus laevis larvae., Huang CL., J Anat. August 1, 1988; 159 129-36.

The distribution of fibronectin and tenascin along migratory pathways of the neural crest in the trunk of amphibian embryos., Epperlein HH., Development. August 1, 1988; 103 (4): 743-56.                  

Prospective Neural Areas and their Morphogenetic Movements during Neural Plate Formation in the Xenopus Embryo. II. Disposition of Transplanted Ectoderm Pieces of X. borealis Animal Cap in Prospective Neural Areas of Albino X. laevis gastrulae.: (developmental fate/neural plate area/Xenopus embryo/chimera/quinacrine)., Suzuki AS., Dev Growth Differ. August 1, 1988; 30 (4): 391-400.

Accumulation and decay of DG42 gene products follow a gradient pattern during Xenopus embryogenesis., Rosa F., Dev Biol. September 1, 1988; 129 (1): 114-23.            

Acetylcholine receptors and concanavalin A-binding sites on cultured Xenopus muscle cells: electrophoresis, diffusion, and aggregation., Stollberg J., J Cell Biol. October 1, 1988; 107 (4): 1397-408.

Ionic channels and signal conduction in single remyelinating frog nerve fibres., Shrager P., J Physiol. October 1, 1988; 404 695-712.

Immunocytochemical identification of non-neuronal intermediate filament proteins in the developing Xenopus laevis nervous system., Szaro BG., Dev Biol. October 1, 1988; 471 (2): 207-24.                    

Temporal pattern of appearance and distribution of cholecystokinin-like peptides during development in Xenopus laevis., Scalise FW., Gen Comp Endocrinol. November 1, 1988; 72 (2): 303-11.    

Gene expression in the embryonic nervous system of Xenopus laevis., Richter K., Proc Natl Acad Sci U S A. November 1, 1988; 85 (21): 8086-90.      

Effects of increasing ploidy on the lumbar lateral motor column and hindlimb of newly metamorphosed Xenopus laevis: a comparison of diploid and triploid siblings., Sperry DG., J Comp Neurol. November 22, 1988; 277 (4): 499-508.

Localization of c-myc expression during oogenesis and embryonic development in Xenopus laevis., Hourdry J., Development. December 1, 1988; 104 (4): 631-41.          

Lumbar lateral motor column development in triploid Xenopus laevis., Sperry DG., J Comp Neurol. December 15, 1988; 278 (3): 446-52.

A gradient of homeodomain protein in developing forelimbs of Xenopus and mouse embryos., Oliver G., Cell. December 23, 1988; 55 (6): 1017-24.        

The role of lateral migration in the formation of acetylcholine receptor clusters induced by basic polypeptide-coated latex beads., Peng HB., Dev Biol. January 1, 1989; 131 (1): 197-206.

A whole-mount immunocytochemical analysis of the expression of the intermediate filament protein vimentin in Xenopus., Dent JA., Development. January 1, 1989; 105 (1): 61-74.                      

Embryonic development of Xenopus studied in a cell culture system with tissue-specific monoclonal antibodies., Mitani S., Development. January 1, 1989; 105 (1): 53-9.        

Development of the lateral line system in Xenopus., Winklbauer R., Prog Neurobiol. January 1, 1989; 32 (3): 181-206.

Comparative actions of salicylate on the amphibian lateral line and guinea pig cochlea., Puel JL., Comp Biochem Physiol C Comp Pharmacol Toxicol. January 1, 1989; 93 (1): 73-80.

Pathway and kinetics of vitellogenin-gold internalization in the Xenopus oocyte., Busson S., Biol Cell. January 1, 1989; 67 (1): 37-49.

States of determination of single cells transplanted between 512-cell Xenopus embryos., Jacobson M., Dev Biol. January 1, 1989; 131 (1): 119-25.

Mediolateral cell intercalation in the dorsal, axial mesoderm of Xenopus laevis., Keller R., Dev Biol. February 1, 1989; 131 (2): 539-49.

Pharmacological alterations of the activity of afferent fibers innervating hair cells., Mroz EA., Hear Res. March 1, 1989; 38 (1-2): 141-62.

Analysis of histamine as a hair-cell transmitter in the lateral line of Xenopus laevis., Bledsoe SC., Hear Res. March 1, 1989; 38 (1-2): 81-93.

Amphibian (urodele) myotomes display transitory anterior/posterior and medial/lateral differentiation patterns., Neff AW., Dev Biol. April 1, 1989; 132 (2): 529-43.  

Electric Field-Induced Redistribution of ACh Receptors on Cultured Muscle Cells: Electromigration, Diffusion, and Aggregation., Stollberg J., Biol Bull. April 1, 1989; 176 (2S): 157-163.

Determination of axial polarity in the vertebrate embryo: homeodomain proteins and homeogenetic induction., De Robertis EM., Cell. April 21, 1989; 57 (2): 189-91.  

Morphology of afferent synapses in the Mauthner cell of larval Xenopus laevis., Cioni C., J Comp Neurol. June 8, 1989; 284 (2): 205-14.

Expression of an engrailed-related protein is induced in the anterior neural ectoderm of early Xenopus embryos., Brivanlou AH., Development. July 1, 1989; 106 (3): 611-7.                  

Potassium-induced release of endogenous glutamate and two as yet unidentified substances from the lateral line of Xenopus laevis., Bledsoe SC., Dev Biol. July 24, 1989; 493 (1): 113-22.

Cell intercalation during notochord development in Xenopus laevis., Keller R., J Exp Zool. August 1, 1989; 251 (2): 134-54.

Angiogenesis on the optic tectum of albino Xenopus laevis tadpoles., Rovainen CM., Brain Res Dev Brain Res. August 1, 1989; 48 (2): 197-213.

The appearance of neural and glial cell markers during early development of the nervous system in the amphibian embryo., Messenger NJ., Development. September 1, 1989; 107 (1): 43-54.                      

Localization of intracellular proteins at acetylcholine receptor clusters induced by electric fields in Xenopus muscle cells., Rochlin MW., J Cell Sci. September 1, 1989; 94 ( Pt 1) 73-83.            

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