Papers associated with endochondral bone

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	The effect of thyroid hormone on the ossification of the femur in Xenopus laevis tadpoles., FOX E., S Afr J Med Sci. July 1, 1950; 15 (1-2): 11-14.
	UPTAKE OF LABELLED PRECURSORS OF MELATONIN BY THE EPIPHYSIS OF XENOPUS LAEVIS., CHARLTON HM., Nature. December 12, 1964; 204 1093-4.
	The uptake of C14 5-hydroxytryptamine creatinine sulphate and C14 5-methyl-methionine by the epiphysis of Xenopus laevis Daudin., Charlton HM., Comp Biochem Physiol. March 1, 1966; 17 (3): 777-84.
	Architecture of the marrow vasculature in three amphibian species and its significance in hematopoietic development., Tanaka Y., Am J Anat. April 1, 1976; 145 (4): 485-97.
	Pineal complex of the clawed toad, Xenopus laevis Daud.: structure and function., Korf HW., Cell Tissue Res. January 1, 1981; 216 (1): 113-30.
	[Evaluation of amputation techniques for the study of limb regeneration in the newt and toad]., Fujimaki M., Jikken Dobutsu. January 1, 1984; 33 (1): 109-14.
	Chick myotendinous antigen. I. A monoclonal antibody as a marker for tendon and muscle morphogenesis., Chiquet M., J Cell Biol. June 1, 1984; 98 (6): 1926-36.
	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.
	Effects of denervation and delayed amputation on forelimb regeneration in Xenopus laevis froglets., McLaughlin DS., Anat Rec. March 1, 1986; 214 (3): 289-93.
	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.
	Position dependent expression of a homeobox gene transcript in relation to amphibian limb regeneration., Savard P., EMBO J. December 20, 1988; 7 (13): 4275-82.
	Vertebral Abnormalities Following Heat Shock in Xenopus Embryos: (Xenopus embryos/vertebral abnormality/heat shock/somite disturbance/bone staining.)., Kobayashi H., Dev Growth Differ. February 1, 1989; 31 (1): 65-70.
	Development of the ethmoidal structures of the endocranium in the anuran Pipa pipa., Roček Z., J Morphol. June 1, 1989; 200 (3): 301-319.
	Enhanced c-myc gene expression during forelimb regenerative outgrowth in the young Xenopus laevis., Géraudie J., Proc Natl Acad Sci U S A. May 1, 1990; 87 (10): 3797-801.
	EMA, an epithelial membrane-associated antigen during early development and morphogenesis ofXenopus laevis., Kiene B., Rouxs Arch Dev Biol. November 1, 1990; 199 (3): 164-168.
	xUBF and Rib 1 are both required for formation of a stable polymerase I promoter complex in X. laevis., McStay B., EMBO J. August 1, 1991; 10 (8): 2297-303.
	Expression of two nonallelic type II procollagen genes during Xenopus laevis embryogenesis is characterized by stage-specific production of alternatively spliced transcripts., Su MW., J Cell Biol. October 1, 1991; 115 (2): 565-75.
	Epimorphic vs. tissue regeneration in Xenopus forelimbs., Goss RJ., J Exp Zool. April 1, 1992; 261 (4): 451-7.
	Distribution of type II collagen mRNA in Xenopus embryos visualized by whole-mount in situ hybridization., Bieker JJ., J Histochem Cytochem. August 1, 1992; 40 (8): 1117-20.
	Skeletal development in Xenopus laevis (Anura: Pipidae)., Trueb L., J Morphol. October 1, 1992; 214 (1): 1-41.
	Induction of the Xenopus organizer: expression and regulation of Xnot, a novel FGF and activin-regulated homeo box gene., von Dassow G., Genes Dev. March 1, 1993; 7 (3): 355-66.
	Expression of a Xenopus Distal-less homeobox gene involved in forebrain and cranio-facial development., Dirksen ML., Mech Dev. May 1, 1993; 41 (2-3): 121-8.
	Retinoic acid gradients during limb regeneration., Scadding SR., Dev Biol. April 1, 1994; 162 (2): 608-17.
	rDlx, a novel distal-less-like homeoprotein is expressed in developing cartilages and discrete neuronal tissues., Zhao GQ., Dev Biol. July 1, 1994; 164 (1): 37-51.
	The expression pattern of two zebrafish achaete-scute homolog (ash) genes is altered in the embryonic brain of the cyclops mutant., Allende ML., Dev Biol. December 1, 1994; 166 (2): 509-30.
	A homeobox gene involved in node, notochord and neural plate formation of chick embryos., Stein S., Mech Dev. January 1, 1995; 49 (1-2): 37-48.
	Hox genes and the evolution of vertebrate axial morphology., Burke AC., Development. February 1, 1995; 121 (2): 333-46.
	Endogenous distribution of retinoids during normal development and teratogenesis in the mouse embryo., Horton C., Dev Dyn. March 1, 1995; 202 (3): 312-23.
	Multiple defects and perinatal death in mice deficient in follistatin., Matzuk MM., Nature. March 23, 1995; 374 (6520): 360-3.
	Dorsal-ventral patterning and differentiation of noggin-induced neural tissue in the absence of mesoderm., Knecht AK., Development. June 1, 1995; 121 (6): 1927-35.
	Regulation of HoxA expression in developing and regenerating axolotl limbs., Gardiner DM., Development. June 1, 1995; 121 (6): 1731-41.
	Goosecoid is not an essential component of the mouse gastrula organizer but is required for craniofacial and rib development., Rivera-Pérez JA., Development. September 1, 1995; 121 (9): 3005-12.
	Upstream binding factor stabilizes Rib 1, the TATA-binding-protein-containing Xenopus laevis RNA polymerase I transcription factor, by multiple protein interactions in a DNA-independent manner., Bodeker M., Mol Cell Biol. October 1, 1996; 16 (10): 5572-8.
	A posteriorising factor, retinoic acid, reveals that anteroposterior patterning controls the timing of neuronal differentiation in Xenopus neuroectoderm., Papalopulu N., Development. November 1, 1996; 122 (11): 3409-18.
	Differential activation of the clustered homeobox genes CNOT2 and CNOT1 during notogenesis in the chick., Stein S., Dev Biol. December 15, 1996; 180 (2): 519-33.
	Xrx1, a novel Xenopus homeobox gene expressed during eye and pineal gland development., Casarosa S., Mech Dev. January 1, 1997; 61 (1-2): 187-98.
	The C-terminal domain of Mad-like signal transducers is sufficient for biological activity in the Xenopus embryo and transcriptional activation., Meersseman G., Mech Dev. January 1, 1997; 61 (1-2): 127-40.
	Fritz: a secreted frizzled-related protein that inhibits Wnt activity., Mayr T., Mech Dev. April 1, 1997; 63 (1): 109-25.
	Effects of estrogenic hormones on early development of Xenopus laevis., Nishimura N., J Exp Zool. July 1, 1997; 278 (4): 221-33.
	Post-translational activation of non-homologous DNA end-joining in Xenopus oocyte extracts., Aoufouchi S., Eur J Biochem. July 15, 1997; 247 (2): 518-25.
	The signaling pathway mediated by the type IIB activin receptor controls axial patterning and lateral asymmetry in the mouse., Oh SP., Genes Dev. July 15, 1997; 11 (14): 1812-26.
	Hox group 3 paralogous genes act synergistically in the formation of somitic and neural crest-derived structures., Manley NR., Dev Biol. December 15, 1997; 192 (2): 274-88.
	The Xenopus Emx genes identify presumptive dorsal telencephalon and are induced by head organizer signals., Pannese M., Mech Dev. April 1, 1998; 73 (1): 73-83.
	Multiple digit formation in Xenopus limb bud recombinants., Yokoyama H., Dev Biol. April 1, 1998; 196 (1): 1-10.
	Distribution of pro-opiomelanocortin and its peptide end products in the brain and hypophysis of the aquatic toad, Xenopus laevis., Tuinhof R., Cell Tissue Res. May 1, 1998; 292 (2): 251-65.
	Functional analysis of diastrophic dysplasia sulfate transporter. Its involvement in growth regulation of chondrocytes mediated by sulfated proteoglycans., Satoh H., J Biol Chem. May 15, 1998; 273 (20): 12307-15.
	Xenopus eomesodermin is expressed in neural differentiation., Ryan K., Mech Dev. July 1, 1998; 75 (1-2): 155-8.
	Identification of a receptor-like protein tyrosine phosphatase expressed during Xenopus development., Yang CQ., Dev Dyn. July 1, 1998; 212 (3): 403-12.
	Chondroitin sulfates modulate axon guidance in embryonic Xenopus brain., Anderson RB., Dev Biol. October 15, 1998; 202 (2): 235-43.

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