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	In vitro correlates of in vivo skin graft rejection in Xenopus., Lallone RL., Transplantation. February 1, 1985; 39 (2): 223-6.
	Alteration of the anterior-posterior embryonic axis: the pattern of gastrulation in macrocephalic frog embryos., Kao KR., Dev Biol. January 1, 1985; 107 (1): 239-51.
	Ionic control of locomotion and shape of epithelial cells: I. Role of calcium influx., Mittal AK., Cell Motil. January 1, 1985; 5 (2): 123-36.
	Growth cones and the formation of central and peripheral neurites by sensory neurones in amphibian embryos., Roberts A., J Neurosci Res. January 1, 1985; 13 (1-2): 23-38.
	Biosynthesis of peptides in the skin of Xenopus laevis: isolation of novel peptides predicted from the sequence of cloned cDNAs., Richter K., Peptides. January 1, 1985; 6 Suppl 3 17-21.
	A mass spectrometric assay for novel peptides: application to Xenopus laevis skin secretions., Gibson BW., Peptides. January 1, 1985; 6 Suppl 3 23-7.
	Taxonomic and evolutionary significance of peptides in amphibian skin., Cei JM., Peptides. January 1, 1985; 6 Suppl 3 13-6.
	Biochemical specificity of Xenopus notochord., Smith JC., Differentiation. January 1, 1985; 29 (2): 109-15.
	Analysis of the activity of DNA, RNA, and protein synthesis inhibitors on Xenopus embryo development., Courchesne CL., Teratog Carcinog Mutagen. January 1, 1985; 5 (3): 177-93.
	[Nle4, D-Phe7]-alpha-MSH: a superpotent melanotropin with prolonged action on vertebrate chromatophores., Hadley ME., Comp Biochem Physiol A Comp Physiol. January 1, 1985; 81 (1): 1-6.
	An unusual repetitive structure of caerulein mRNA from the skin of Xenopus laevis., Wakabayashi T., Gene. November 1, 1984; 31 (1-3): 295-9.
	beta-Endorphins (beta-EP) in amphibians: higher beta-EP levels during regenerating stages of anuran life cycle and immunocytochemical localization of beta-EP in regeneration blastemata., Vethamany-Globus S., J Exp Zool. November 1, 1984; 232 (2): 259-67.
	Variations in aldosterone and corticosterone plasma levels during metamorphosis in Xenopus laevis tadpoles., Jolivet Jaudet G., Gen Comp Endocrinol. October 1, 1984; 56 (1): 59-65.
	Interneurones in the Xenopus embryo spinal cord: sensory excitation and activity during swimming., Clarke JD., J Physiol. September 1, 1984; 354 345-62.
	Elicitation of weak immune response in larval and adult Xenopus laevis by allografted pituitary., Maéno M., Transplantation. September 1, 1984; 38 (3): 251-5.
	The comparative distribution of xenopsin- and neurotensin-like immunoreactivity in Xenopus laevis and rat tissues., Goedert M., Dev Biol. August 13, 1984; 308 (2): 273-80.
	Evidence for the participation of a melanin-concentrating hormone in physiological colour change in the eel., Gilham ID., J Endocrinol. August 1, 1984; 102 (2): 237-43.
	Studies on three kinds of lectins from Xenopus laevis skin., Nitta K., Experientia. July 15, 1984; 40 (7): 712-3.
	Self-generated electrical currents through Xenopus neurulae., Robinson KR., J Physiol. July 1, 1984; 352 339-52.
	Activity of commissural interneurons in spinal cord of Xenopus embryos., Soffe SR., J Neurophysiol. June 1, 1984; 51 (6): 1257-67.
	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.
	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.
	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.
	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.
	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.
	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.
	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.
	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.
	[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.
	On the capacity current in myelinated nerve fibres., Wiese H., Gen Physiol Biophys. August 1, 1983; 2 (4): 297-312.
	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.
	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.
	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.
	Cold- and heat-shock induction of new gene expression in cultured amphibian cells., Ketola-Pirie CA., Can J Biochem Cell Biol. June 1, 1983; 61 (6): 462-71.
	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 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.
	Hyaluronic acid synthetase activity in lichen myxedematosus skin., Yamamoto Y., J Dermatol. February 1, 1983; 10 (1): 63-6.
	Is caerulein amphibian CCK?, Dimaline R., Peptides. January 1, 1983; 4 (4): 457-62.
	Biosynthesis of caerulein in the skin of Xenopus laevis: partial sequences of precursors as deduced from cDNA clones., Hoffmann W., EMBO J. January 1, 1983; 2 (1): 111-4.
	Translational products of mRNAs coding for non-epidermal cytokeratins., Magin TM., EMBO J. January 1, 1983; 2 (8): 1387-92.
	Merkel cell distribution in the epidermis as determined by quinacrine fluorescence., Nurse CA., Cell Tissue Res. January 1, 1983; 228 (3): 511-24.

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