Papers associated with NF stage 10

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	Xenopus laevis cement gland as an experimental model for embryonic differentiation. II. The competence of embryonic cells., Picard JJ., J Embryol Exp Morphol. July 1, 1975; 33 (4): 969-78.
	An autoradiographic analysis of nucleic acid synthesis in the presumptive primordial germ cells of Xenopus laevis., Dziadek M, Dixon KE., J Embryol Exp Morphol. February 1, 1977; 37 (1): 13-31.
	Rohon-beard cells and other large neurons in Xenopus embryos originate during gastrulation., Lamborghini JE., J Comp Neurol. January 15, 1980; 189 (2): 323-33.
	Expression of ribosomal-protein genes in Xenopus laevis development., Pierandrei-Amaldi P, Campioni N, Beccari E, Bozzoni I, Amaldi F., Cell. August 1, 1982; 30 (1): 163-71.
	Multiple ubiquitin mRNAs during Xenopus laevis development contain tandem repeats of the 76 amino acid coding sequence., Dworkin-Rastl E, Shrutkowski A, Dworkin MB., Cell. December 1, 1984; 39 (2 Pt 1): 321-5.
	Occurrence of a species-specific nuclear antigen in the germ line of Xenopus and its expression from paternal genes in hybrid frogs., Wedlich D, Dreyer C, Hausen P., Dev Biol. March 1, 1985; 108 (1): 220-34.
	Changes in the nuclear lamina composition during early development of Xenopus laevis., Stick R, Hausen P., Cell. May 1, 1985; 41 (1): 191-200.
	Cell type-specific expression of nuclear lamina proteins during development of Xenopus laevis., Benavente R, Krohne G, Franke WW., Cell. May 1, 1985; 41 (1): 177-90.
	Activation of muscle-specific actin genes in Xenopus development by an induction between animal and vegetal cells of a blastula., Gurdon JB, Fairman S, Mohun TJ, Brennan S., Cell. July 1, 1985; 41 (3): 913-22.
	Mesoderm induction in Xenopus laevis: a quantitative study using a cell lineage label and tissue-specific antibodies., Dale L, Smith JC, Slack JM., J Embryol Exp Morphol. October 1, 1985; 89 289-312.
	Single cell analysis of commitment in early embryogenesis., Heasman J, Snape A, Smith J, Wylie CC., J Embryol Exp Morphol. November 1, 1985; 89 Suppl 297-316.
	Development of the ectoderm in Xenopus: tissue specification and the role of cell association and division., Jones EA, Woodland HR., Cell. January 31, 1986; 44 (2): 345-55.
	Induction of neural cell adhesion molecule (NCAM) in Xenopus embryos., Jacobson M, Rutishauser U., Dev Biol. August 1, 1986; 116 (2): 524-31.
	Expression of Xenopus N-CAM RNA in ectoderm is an early response to neural induction., Kintner CR, Melton DA., Development. March 1, 1987; 99 (3): 311-25.
	Fate map for the 32-cell stage of Xenopus laevis., Dale L, Slack JM., Development. April 1, 1987; 99 (4): 527-51.
	Expression of the Ca2+-binding protein, parvalbumin, during embryonic development of the frog, Xenopus laevis., Kay BK, Shah AJ, Halstead WE., J Cell Biol. April 1, 1987; 104 (4): 841-7.
	The organization of mesodermal pattern in Xenopus laevis: experiments using a Xenopus mesoderm-inducing factor., Cooke J, Smith JC, Smith EJ, Yaqoob M., Development. December 1, 1987; 101 (4): 893-908.
	The restrictive effect of early exposure to lithium upon body pattern in Xenopus development, studied by quantitative anatomy and immunofluorescence., Cooke J, Smith EJ., Development. January 1, 1988; 102 (1): 85-99.
	Regional expression, pattern and timing of convergence and extension during gastrulation of Xenopus laevis., Keller R, Danilchik M., Development. May 1, 1988; 103 (1): 193-209.
	Xenopus endo B is a keratin preferentially expressed in the embryonic notochord., LaFlamme SE, Jamrich M, Richter K, Sargent TD, Dawid IB., Genes Dev. July 1, 1988; 2 (7): 853-62.
	Expression of Epi 1, an epidermis-specific marker in Xenopus laevis embryos, is specified prior to gastrulation., London C, Akers R, Phillips C., Dev Biol. October 1, 1988; 129 (2): 380-9.
	xlgv7: a maternal gene product localized in nuclei of the central nervous system in Xenopus laevis., Miller M, Kloc M, Reddy B, Eastman E, Dreyer C, Etkin L., Genes Dev. April 1, 1989; 3 (4): 572-83.
	Bimodal and graded expression of the Xenopus homeobox gene Xhox3 during embryonic development., Ruiz i Altaba A, Melton DA., Development. May 1, 1989; 106 (1): 173-83.
	Spatial aspects of neural induction in Xenopus laevis., Jones EA, Woodland HR., Development. December 1, 1989; 107 (4): 785-91.
	The biological effects of XTC-MIF: quantitative comparison with Xenopus bFGF., Green JB, Howes G, Symes K, Cooke J, Smith JC., Development. January 1, 1990; 108 (1): 173-83.
	Molecular approach to dorsoanterior development in Xenopus laevis., Sato SM, Sargent TD., Dev Biol. January 1, 1990; 137 (1): 135-41.
	Effects of cell heterogeneity on production of polypeptide growth factors and mesoderm-inducing activity by Xenopus laevis XTC cells., Snoek GT, Koster CH, de Laat SW, Heideveld M, Durston AJ, van Zoelen EJ., Exp Cell Res. April 1, 1990; 187 (2): 203-10.
	Studies on the expression of intracellular and surface polarity in animal pole cells of Xenopus embryos cultured on various substrata., Asada-Kubota M., J Struct Biol. April 1, 1990; 103 (2): 113-23.
	Differential expression of two cadherins in Xenopus laevis., Angres B, Müller AH, Kellermann J, Hausen P., Development. March 1, 1991; 111 (3): 829-44.
	Xwnt-8, a Xenopus Wnt-1/int-1-related gene responsive to mesoderm-inducing growth factors, may play a role in ventral mesodermal patterning during embryogenesis., Christian JL, McMahon JA, McMahon AP, Moon RT., Development. April 1, 1991; 111 (4): 1045-55.
	Changes in neural and lens competence in Xenopus ectoderm: evidence for an autonomous developmental timer., Servetnick M, Grainger RM., Development. May 1, 1991; 112 (1): 177-88.
	Homeogenetic neural induction in Xenopus., Servetnick M, Grainger RM., Dev Biol. September 1, 1991; 147 (1): 73-82.
	Cloning, sequencing, and expression of two Xenopus laevis c-ets-2 protooncogenes., Wolff CM, Stiegler P, Baltzinger M, Meyer D, Ghysdael J, Stéhelin D, Befort N, Remy P., Cell Growth Differ. September 1, 1991; 2 (9): 447-56.
	Nuclear translocation of fibroblast growth factor during Xenopus mesoderm induction., Shiurba RA, Jing N, Sakakura T, Godsave SF., Development. October 1, 1991; 113 (2): 487-93.
	Transient expression of XMyoD in non-somitic mesoderm of Xenopus gastrulae., Frank D, Harland RM., Development. December 1, 1991; 113 (4): 1387-93.
	The LIM domain-containing homeo box gene Xlim-1 is expressed specifically in the organizer region of Xenopus gastrula embryos., Taira M, Jamrich M, Good PJ, Dawid IB., Genes Dev. March 1, 1992; 6 (3): 356-66.
	Analysis of Xwnt-4 in embryos of Xenopus laevis: a Wnt family member expressed in the brain and floor plate., McGrew LL, Otte AP, Moon RT., Development. June 1, 1992; 115 (2): 463-73.
	Ectopic induction of dorsal mesoderm by overexpression of Xwnt-8 elevates the neural competence of Xenopus ectoderm., Otte AP, Moon RT., Dev Biol. July 1, 1992; 152 (1): 184-7.
	Pintallavis, a gene expressed in the organizer and midline cells of frog embryos: involvement in the development of the neural axis., Ruiz i Altaba A, Jessell TM., Development. September 1, 1992; 116 (1): 81-93.
	Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos., Smith WC, Harland RM., Cell. September 4, 1992; 70 (5): 829-40.
	Isolation and sequence of a cDNA encoding the precursor of a bombesinlike peptide from brain and early embryos of Xenopus laevis., Wechselberger C, Kreil G, Richter K., Proc Natl Acad Sci U S A. October 15, 1992; 89 (20): 9819-22.
	Cell motility driving mediolateral intercalation in explants of Xenopus laevis., Shih J, Keller R., Development. December 1, 1992; 116 (4): 901-14.
	Interactions between Xwnt-8 and Spemann organizer signaling pathways generate dorsoventral pattern in the embryonic mesoderm of Xenopus., Christian JL, Moon RT., Genes Dev. January 1, 1993; 7 (1): 13-28.
	Overlapping expression of Xwnt-3A and Xwnt-1 in neural tissue of Xenopus laevis embryos., Wolda SL, Moody CJ, Moon RT., Dev Biol. January 1, 1993; 155 (1): 46-57.
	Properties of the dorsalizing signal in gastrulae of Xenopus laevis., Lettice LA, Slack JM., Development. January 1, 1993; 117 (1): 263-71.
	Induction of the Xenopus organizer: expression and regulation of Xnot, a novel FGF and activin-regulated homeo box gene., von Dassow G, Schmidt JE, Kimelman D., Genes Dev. March 1, 1993; 7 (3): 355-66.
	Integrin alpha subunit mRNAs are differentially expressed in early Xenopus embryos., Whittaker CA, DeSimone DW., Development. April 1, 1993; 117 (4): 1239-49.
	Murine stem cell factor stimulates erythropoietic differentiation of ventral mesoderm in Xenopus gastrula embryo., Ong RC, Maéno M, Kung HF., Exp Cell Res. April 1, 1993; 205 (2): 326-30.
	Expression of an extracellular deletion of Xotch diverts cell fate in Xenopus embryos., Coffman CR, Skoglund P, Harris WA, Kintner CR., Cell. May 21, 1993; 73 (4): 659-71.
	Catenins in Xenopus embryogenesis and their relation to the cadherin-mediated cell-cell adhesion system., Schneider S, Herrenknecht K, Butz S, Kemler R, Hausen P., Development. June 1, 1993; 118 (2): 629-40.

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