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Summary Anatomy Item Literature (6290) Expression Attributions Wiki
XB-ANAT-475

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Tolerance maintenance depends on persistence of the tolerizing antigen: evidence from transplantation studies on Xenopus laevis., Kaye C., Dev Comp Immunol. January 1, 1983; 7 (3): 497-506.

Hyaluronic acid synthetase activity in lichen myxedematosus skin., Yamamoto Y., J Dermatol. February 1, 1983; 10 (1): 63-6.

Experimental analysis of control mechanisms in somite segmentation in avian embryos. I. Reduction of material at the blastula stage in Coturnix coturnix japonica., Veini M., J Embryol Exp Morphol. April 1, 1983; 74 1-14.

The anatomy of two functional types of mechanoreceptive 'free' nerve-ending in the head skin of Xenopus embryos., Hayes BP., Proc R Soc Lond B Biol Sci. April 22, 1983; 218 (1210): 61-76.

Competition during innervation of embryonic amphibian head skin., Kitson DL., Proc R Soc Lond B Biol Sci. April 22, 1983; 218 (1210): 49-59.

Change in the differentiation pattern ofXenopus laevis ectoderm by variation of the incubation time and concentration of vegetalizing factor., Grunz H., Wilehm Roux Arch Dev Biol. May 1, 1983; 192 (3-4): 130-137.

The early development of the primary sensory neurones in an amphibian embryo: a scanning electron microscope study., Taylor JS., J Embryol Exp Morphol. June 1, 1983; 75 49-66.

A study of the growth cones of developing embryonic sensory neurites., Roberts A., J Embryol Exp Morphol. June 1, 1983; 75 31-47.

On the role of the notochord in somite formation and the possible evolutionary significance of the concomitant cell re-orientation., Burgess AM., J Anat. June 1, 1983; 136 (Pt 4): 829-35.

Melanophore differentiation in Xenopus laevis, with special reference to dorsoventral pigment pattern formation., Ohsugi K., J Embryol Exp Morphol. June 1, 1983; 75 141-50.

The thymus dependency of transplantation allotolerance in the metamorphosing frog Xenopus laevis., Barlow EH., Transplantation. June 1, 1983; 35 (6): 612-9.

The origin of the mesoderm in an anuran, Xenopus laevis, and a urodele, Ambystoma mexicanum., Smith JC., Dev Biol. July 1, 1983; 98 (1): 250-4.

Specific in vivo and nonspecific in vitro alloreactivities of adult frogs (Xenopus laevis) that were thymectomized during early larval life., Nagata S., Eur J Immunol. July 1, 1983; 13 (7): 541-5.

Response to skin grafts exchanged among siblings of larval and adult gynogenetic diploids in Xenopus laevis., Obara N., Transplantation. July 1, 1983; 36 (1): 91-5.

Evidence for specific feedback signals underlying pattern control during vertebrate embryogenesis., Cooke J., J Embryol Exp Morphol. August 1, 1983; 76 95-114.

[Intercellular relay interactions in explants of amphibian embryonic tissues. I. Intercellular relay interactions in normal explant morphogenesis]., Belousov LV., Tsitologiia. August 1, 1983; 25 (8): 939-44.

Development of the lateral line system in Xenopus laevis. I. Normal development and cell movement in the supraorbital system., Winklbauer R., J Embryol Exp Morphol. August 1, 1983; 76 265-81.

Axis determination in eggs of Xenopus laevis: a critical period before first cleavage, identified by the common effects of cold, pressure and ultraviolet irradiation., Scharf SR., Dev Biol. September 1, 1983; 99 (1): 75-87.            

[Effects of calcium ions on the inner side of the skin in the lateral line organs of Xenopus laevis]., Asanuma A., Tsurumi Shigaku. September 1, 1983; 9 (3): 439-48.

Craniofacial malformation in Xenopus laevis tadpoles caused by the exposure of early embryos to ethanol., Nakatsuji N., Teratology. October 1, 1983; 28 (2): 299-305.

A new in vitro melanophore bioassay for MSH using tail-fins of Xenopus tadpoles., de Graan PN., Mol Cell Endocrinol. October 1, 1983; 32 (2-3): 271-84.

Xenopus neural crest cell migration in an applied electrical field., Stump RF., J Cell Biol. October 1, 1983; 97 (4): 1226-33.

Intermediate-size filaments in a germ cell: Expression of cytokeratins in oocytes and eggs of the frog Xenopus., Franz JK., Proc Natl Acad Sci U S A. October 1, 1983; 80 (20): 6254-8.          

Dual contribution of embryonic ventral blood island and dorsal lateral plate mesoderm during ontogeny of hemopoietic cells in Xenopus laevis., Kau CL., J Immunol. November 1, 1983; 131 (5): 2262-6.

Dorsalization and neural induction: properties of the organizer in Xenopus laevis., Smith JC., J Embryol Exp Morphol. December 1, 1983; 78 299-317.

Cell lineage and the induction of second nervous systems in amphibian development., Gimlich RL., Nature. December 1, 1983; 306 (5942): 471-3.

[Kinetics of contact polarization of cells in induced tissues in amphibian embryos]., Petrov KV., Ontogenez. January 1, 1984; 15 (6): 643-8.

Delayed fertilization of anuran amphibian (Xenopus) eggs leads to reduced numbers of primordial germ cells., Wakahara M., Gamete Res. January 1, 1984; 9 (4): 361-73.

Different modes of pronephric duct origin among vertebrates., Poole TJ., Scan Electron Microsc. January 1, 1984; (Pt 1): 475-82.

Comparison by electrophoresis of proteins characteristic of the lateral line and skin of Xenopus laevis., Drescher DG., Comp Biochem Physiol B. January 1, 1984; 77 (2): 295-302.

Xenopsin: the neurotensin-like octapeptide from Xenopus skin at the carboxyl terminus of its precursor., Sures I., Proc Natl Acad Sci U S A. January 1, 1984; 81 (2): 380-4.

Lateral mobility of plasma membrane lipids in Xenopus eggs: regional differences related to animal/vegetal polarity become extreme upon fertilization., Dictus WJ., Dev Biol. January 1, 1984; 101 (1): 201-11.

Evolution of Xenopus endodermal cells cultured on different extracellular matrix components. Identification of primordial germ cells., Brustis JJ., Anat Embryol (Berl). January 1, 1984; 170 (2): 187-96.

Induction of T cell differentiation in early-thymectomized Xenopus by grafting adult thymuses from either MHC-matched or from partially or totally MHC-mismatched donors., Nagata S., Thymus. January 1, 1984; 6 (1-2): 89-103.

Na+/K+-ATPase from Xenopus laevis (Daudin) kidney and epidermis: high sensitivity towards regulatory compounds., Giunta C., Comp Biochem Physiol B. January 1, 1984; 79 (1): 71-4.

Inducing activity of subcellular fractions from amphibian embryos., Janeczek J., Wilehm Roux Arch Dev Biol. January 1, 1984; 193 (1): 1-12.

Biosynthesis of thyrotropin releasing hormone in the skin of Xenopus laevis: partial sequence of the precursor deduced from cloned cDNA., Richter K., EMBO J. March 1, 1984; 3 (3): 617-21.

Sensory physiology, anatomy and immunohistochemistry of Rohon-Beard neurones in embryos of Xenopus laevis., Clarke JD., J Physiol. March 1, 1984; 348 511-25.

Cell lineage analysis of neural induction: origins of cells forming the induced nervous system., Jacobson M., Dev Biol. March 1, 1984; 102 (1): 122-9.

Synthesis of tritium labeled Ac-[Nle4, D-Phe7]-alpha-MSH4-11-NH2: a superpotent melanotropin with prolonged biological activity., Wilkes BC., Life Sci. March 5, 1984; 34 (10): 977-84.

Influence of Ca2+ on the voltage dependent mechanosensitivity of the hair cells in the lateral line organs of Xenopus laevis., Jørgensen F., Acta Physiol Scand. April 1, 1984; 120 (4): 481-8.

Ribonucleoprotein particles from Xenopus eggs and embryos. Neural-archencephalic-inducing activity of the protein moiety., Janeczek J., Eur J Biochem. April 16, 1984; 140 (2): 257-64.

Fates and states of determination of single vegetal pole blastomeres of X. laevis., Heasman J., Cell. May 1, 1984; 37 (1): 185-94.

Differentiation of presumptive primordial germ cell (pPGC)-like cells in explants into PGCs in experimental tadpoles., Ikenishi K., Dev Biol. May 1, 1984; 103 (1): 258-62.

Are the primordial germ cells (PGCs) in urodela formed by the inductive action of the vegetative yolk mass?, Michael P., Dev Biol. May 1, 1984; 103 (1): 109-16.

Activity of commissural interneurons in spinal cord of Xenopus embryos., Soffe SR., J Neurophysiol. June 1, 1984; 51 (6): 1257-67.

Effects of ethanol on the primitive streak stage mouse embryo., Nakatsuji N., Teratology. June 1, 1984; 29 (3): 369-75.

Amino acid sequence of the carboxy-terminal part of an acidic type I cytokeratin of molecular weight 51 000 from Xenopus laevis epidermis as predicted from the cDNA sequence., Hoffmann W., EMBO J. June 1, 1984; 3 (6): 1301-6.

The relation between soma position and fibre trajectory of neurons in the mesencephalic trigeminal nucleus of Xenopus laevis., Lowe DA., Proc R Soc Lond B Biol Sci. June 22, 1984; 221 (1225): 437-54.

Self-generated electrical currents through Xenopus neurulae., Robinson KR., J Physiol. July 1, 1984; 352 339-52.

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