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	[Involution of the thymus gland of amphibia in aging. I. Volumetric determination of the thymus of the claw frog, xenopus laevis Daudin.], STERBA G., Anat Anz. June 30, 1952; 99 (6-9): 106-14.
	[Effect of osmotic loading on the claw frog Xenopus laevis]., Spannhof L., Naturwissenschaften. November 1, 1966; 53 (22): 588-9.
	[Heredity of the 4th claw and metatarsal tubercle in the genus Xenopus]., Vigny C., Rev Suisse Zool. March 1, 1977; 84 (1): 181-5.
	In vivo studies of individual mucous glands in the frog., Skoglund CR., Acta Physiol Scand. August 1, 1977; 100 (4): 471-84.
	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.
	Size dependence during the development of the amphibian foot. Colchicine-induced digital loss and reduction., Alberch P., J Embryol Exp Morphol. August 1, 1983; 76 177-97.
	Effect of temperature and Zn2+ on isometric contractile properties and electrical phenomena of frog (Rana) and Xenopus skeletal muscle fibers., Oba T., Can J Physiol Pharmacol. December 1, 1984; 62 (12): 1511-7.
	[Regenerative capability in the hindlimb of Xenopus laevis during ontogenetic development]., Fujikura K., Jikken Dobutsu. October 1, 1985; 34 (4): 445-58.
	The effects of local application of retinoic acid on limb development and regeneration in tadpoles of Xenopus laevis., Scadding SR., J Embryol Exp Morphol. February 1, 1986; 91 55-63.
	Comparison of the effects of vitamin A on limb development and regeneration in Xenopus laevis tadpoles., Scadding SR., J Embryol Exp Morphol. February 1, 1986; 91 35-53.
	[Analytical study of Xenopus hindlimb regenerate with special reference to muscle regeneration]., Fujikura K., Jikken Dobutsu. October 1, 1986; 35 (4): 421-32.
	Intrinsic control of regenerative loss in Xenopus laevis limbs., Muneoka K., J Exp Zool. October 1, 1986; 240 (1): 47-54.
	Force and membrane potential during and after fatiguing, intermittent tetanic stimulation of single Xenopus muscle fibres., Westerblad H., Acta Physiol Scand. November 1, 1986; 128 (3): 369-78.
	Force and membrane potential during and after fatiguing, continuous high-frequency stimulation of single Xenopus muscle fibres., Lännergren J., Acta Physiol Scand. November 1, 1986; 128 (3): 359-68.
	Action potential fatigue in single skeletal muscle fibres of Xenopus., Lännergren J., Acta Physiol Scand. March 1, 1987; 129 (3): 311-8.
	Digit regeneration in the hindlimbs of larval stages of xenopus laevis (Daudin)., Anton HJ., Monogr Dev Biol. January 1, 1988; 21 196-205.
	Lectin binding on carbohydrate compounds of the flask cells in the claw-frog kidney., Jonas L., Acta Histochem. January 1, 1988; 84 (2): 217-25.
	Ultrastructural identification of the primitive muscle spindle in the Xenopus laevis larvae., Shinmori H., Anat Embryol (Berl). January 1, 1988; 177 (5): 381-7.
	Freeze-fracture investigations of membranes of flask cells in the kidney and of parietal cells in the stomach of claw-frog (Xenopus laevis)., Jonas L., Anat Anz. January 1, 1988; 165 (1): 23-33.
	The relation between force and intracellular pH in fatigued, single Xenopus muscle fibres., Westerblad H., Acta Physiol Scand. May 1, 1988; 133 (1): 83-9.
	The effect of temperature and stimulation scheme on fatigue and recovery in Xenopus muscle fibres., Lännergren J., Acta Physiol Scand. May 1, 1988; 133 (1): 73-82.
	Binding studies of gold labelled lectins on carbohydrate compounds of the flask cells in claw-frog kidney., Jonas L., Acta Histochem. January 1, 1991; 90 (2): 121-6.
	Changes in tetanic and resting [Ca2+]i during fatigue and recovery of single muscle fibres from Xenopus laevis., Lee JA., J Physiol. February 1, 1991; 433 307-26.
	Prolactin inhibits both thyroid hormone-induced morphogenesis and cell death in cultured amphibian larval tissues., Tata JR., Dev Biol. July 1, 1991; 146 (1): 72-80.
	Reduced maximum shortening velocity in the absence of phosphocreatine observed in intact fibres of Xenopus skeletal muscle., Westerblad H., J Physiol. January 15, 1995; 482 ( Pt 2) 383-90.
	Monoclonal antibody MT2 identifies the urodele alpha 1 chain of type XII collagen, a developmentally regulated extracellular matrix protein in regenerating newt limbs., Wei Y., Dev Biol. April 1, 1995; 168 (2): 503-13.
	The relationship of innervation and differentiation to regenerative capacity in the reamputated hindlimb of larval Xenopus laevis., Bernardini S., Rouxs Arch Dev Biol. February 1, 1996; 205 (5-6): 252-259.
	Haploinsufficient phenotypes in Bmp4 heterozygous null mice and modification by mutations in Gli3 and Alx4., Dunn NR., Dev Biol. August 15, 1997; 188 (2): 235-47.
	Pattern formation in dissociated limb bud mesenchyme in vitro and in vivo., Ide H., Wound Repair Regen. January 1, 1998; 6 (4): 398-402.
	Multiple digit formation in Xenopus limb bud recombinants., Yokoyama H., Dev Biol. April 1, 1998; 196 (1): 1-10.
	Hedgehog family member is expressed throughout regenerating and developing limbs., Stark DR., Dev Dyn. July 1, 1998; 212 (3): 352-63.
	Gene expression screening in Xenopus identifies molecular pathways, predicts gene function and provides a global view of embryonic patterning., Gawantka V., Mech Dev. October 1, 1998; 77 (2): 95-141.
	Gli3 (Xt) and formin (ld) participate in the positioning of the polarising region and control of posterior limb-bud identity., Zúñiga A., Development. January 1, 1999; 126 (1): 13-21.
	Molecular cloning of the Notophthalmus viridescens radical fringe cDNA and characterization of its expression during forelimb development and adult forelimb regeneration., Cadinouche MZ., Dev Dyn. March 1, 1999; 214 (3): 259-68.
	GDF5 coordinates bone and joint formation during digit development., Storm EE., Dev Biol. May 1, 1999; 209 (1): 11-27.
	Differential expression of the frizzled family involved in Wnt signaling during chick limb development., Nohno T., Cell Mol Biol (Noisy-le-grand). July 1, 1999; 45 (5): 653-9.
	Suppression of polydactyly of the Gli3 mutant (extra toes) by deltaEF1 homozygous mutation., Moribe H., Dev Growth Differ. August 1, 2000; 42 (4): 367-76.
	Conservation of localization patterns of IP(3) receptor type 1 in cerebellar Purkinje cells across vertebrate species., Koulen P., J Neurosci Res. September 1, 2000; 61 (5): 493-9.
	csal1 is controlled by a combination of FGF and Wnt signals in developing limb buds., Farrell ER., Dev Biol. September 15, 2000; 225 (2): 447-58.
	Changes in mitochondrial Ca2+ detected with Rhod-2 in single frog and mouse skeletal muscle fibres during and after repeated tetanic contractions., Lännergren J., J Muscle Res Cell Motil. January 1, 2001; 22 (3): 265-75.
	Expression patterns of Fgf-8 during development and limb regeneration of the axolotl., Han MJ., Dev Dyn. January 1, 2001; 220 (1): 40-8.
	On the origin of and phylogenetic relationships among living amphibians., Zardoya R., Proc Natl Acad Sci U S A. June 19, 2001; 98 (13): 7380-3.
	Expression pattern of Irx1 and Irx2 during mouse digit development., Zülch A., Mech Dev. August 1, 2001; 106 (1-2): 159-62.
	Developmental basis of limb evolution., Hinchliffe JR., Int J Dev Biol. January 1, 2002; 46 (7): 835-45.
	Pteropodine and isopteropodine positively modulate the function of rat muscarinic M(1) and 5-HT(2) receptors expressed in Xenopus oocyte., Kang TH., Eur J Pharmacol. May 24, 2002; 444 (1-2): 39-45.
	De novo GLI3 mutation in acrocallosal syndrome: broadening the phenotypic spectrum of GLI3 defects and overlap with murine models., Elson E., J Med Genet. November 1, 2002; 39 (11): 804-6.
	Anteroposterior axis formation in Xenopus limb bud recombinants: a model of pattern formation during limb regeneration., Yokoyama H., Dev Dyn. November 1, 2002; 225 (3): 277-88.
	Intercalary and supernumerary regeneration in the limbs of the frog, Xenopus laevis., Shimizu-Nishikawa K., Dev Dyn. August 1, 2003; 227 (4): 563-72.
	Identification and expression of the first nonmammalian amyloid-beta precursor-like protein APLP2 in the amphibian Xenopus laevis., Collin RW., Eur J Biochem. May 1, 2004; 271 (10): 1906-12.
	Cellular and molecular mechanisms of regeneration in Xenopus., Slack JM., Philos Trans R Soc Lond B Biol Sci. May 29, 2004; 359 (1445): 745-51.

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