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	The Spemann organizer of Xenopus is patterned along its anteroposterior axis at the earliest gastrula stage., Zoltewicz JS., Dev Biol. December 15, 1997; 192 (2): 482-91.
	Localized maternal proteins in Xenopus revealed by subtractive immunization., Denegre JM., Dev Biol. December 15, 1997; 192 (2): 446-54.
	Formation of new plasma membrane during the first cleavage cycle in the egg of Xenopus laevis: an immunocytological study., Aimar C., Dev Growth Differ. December 1, 1997; 39 (6): 693-704.
	Xenopus Pax-2 displays multiple splice forms during embryogenesis and pronephric kidney development., Heller N., Mech Dev. December 1, 1997; 69 (1-2): 83-104.
	The homeobox gene PV.1 mediates specification of the prospective neural ectoderm in Xenopus embryos., Ault KT., Dev Biol. December 1, 1997; 192 (1): 162-71.
	Characterization and early embryonic expression of a neural specific transcription factor xSOX3 in Xenopus laevis., Penzel R., Int J Dev Biol. October 1, 1997; 41 (5): 667-77.
	Progesterone acts through protein kinase C to remodel the cytoplasm as the amphibian oocyte becomes the fertilization-competent egg., Johnson J., Mech Dev. October 1, 1997; 67 (2): 215-26.
	Somatic linker histones cause loss of mesodermal competence in Xenopus., Steinbach OC., Nature. September 25, 1997; 389 (6649): 395-9.
	Developmental expression of the inositol 1,4,5-trisphosphate receptor and localization of inositol 1,4,5-trisphosphate during early embryogenesis in Xenopus laevis., Kume S., Mech Dev. August 1, 1997; 66 (1-2): 157-68.
	Xenopus laevis sperm-egg adhesion is regulated by modifications in the sperm receptor and the egg vitelline envelope., Tian J., Dev Biol. July 15, 1997; 187 (2): 143-53.
	Xmsx-1 modifies mesodermal tissue pattern along dorsoventral axis in Xenopus laevis embryo., Maeda R., Development. July 1, 1997; 124 (13): 2553-60.
	Changes in microtubule structures during the first cell cycle of physiologically polyspermic newt eggs., Iwao Y., Mol Reprod Dev. June 1, 1997; 47 (2): 210-21.
	The organization and animal-vegetal asymmetry of cytokeratin filaments in stage VI Xenopus oocytes is dependent upon F-actin and microtubules., Gard DL., Dev Biol. April 1, 1997; 184 (1): 95-114.
	New perspectives on the role of the fibroblast growth factor family in amphibian development., Isaacs HV., Cell Mol Life Sci. April 1, 1997; 53 (4): 350-61.
	Establishment of the dorso-ventral axis in Xenopus embryos is presaged by early asymmetries in beta-catenin that are modulated by the Wnt signaling pathway., Larabell CA., J Cell Biol. March 10, 1997; 136 (5): 1123-36.
	The Xenopus T-box gene, Antipodean, encodes a vegetally localised maternal mRNA and can trigger mesoderm formation., Stennard F., Development. December 1, 1996; 122 (12): 4179-88.
	An indelible lineage marker for Xenopus using a mutated green fluorescent protein., Zernicka-Goetz M., Development. December 1, 1996; 122 (12): 3719-24.
	Fertilization stimulates an increase in inositol trisphosphate and inositol lipid levels in Xenopus eggs., Snow P., Dev Biol. November 25, 1996; 180 (1): 108-18.
	The mRNA encoding a beta subunit of heterotrimeric GTP-binding proteins is localized to the animal pole of Xenopus laevis oocyte and embryos., Devic E., Mech Dev. October 1, 1996; 59 (2): 141-51.
	Embryonic expression patterns of Xenopus syndecans., Teel AL., Mech Dev. October 1, 1996; 59 (2): 115-27.
	XFGF-9: a new fibroblast growth factor from Xenopus embryos., Song J., Dev Dyn. August 1, 1996; 206 (4): 427-36.
	Integrin alpha 6 expression is required for early nervous system development in Xenopus laevis., Lallier TE., Development. August 1, 1996; 122 (8): 2539-54.
	Xom: a Xenopus homeobox gene that mediates the early effects of BMP-4., Ladher R., Development. August 1, 1996; 122 (8): 2385-94.
	Xenopus laevis actin-depolymerizing factor/cofilin: a phosphorylation-regulated protein essential for development., Abe H., J Cell Biol. March 1, 1996; 132 (5): 871-85.
	Xenopus poly (A) binding protein maternal RNA is localized during oogenesis and associated with large complexes in blastula., Schroeder KE., Dev Genet. January 1, 1996; 19 (3): 268-76.
	Molecular mechanisms of Spemann's organizer formation: conserved growth factor synergy between Xenopus and mouse., Watabe T., Genes Dev. December 15, 1995; 9 (24): 3038-50.
	Effect of microinjection of rap 2A point mutant proteins on maturation and mottling in Xenopus oocytes., Carnero A., Biochem Biophys Res Commun. November 22, 1995; 216 (3): 748-54.
	The homeobox-containing gene XANF-1 may control development of the Spemann organizer., Zaraisky AG., Development. November 1, 1995; 121 (11): 3839-47.
	eFGF is expressed in the dorsal midline of Xenopus laevis., Isaacs HV., Int J Dev Biol. August 1, 1995; 39 (4): 575-9.
	Distinct expression and shared activities of members of the hedgehog gene family of Xenopus laevis., Ekker SC., Development. August 1, 1995; 121 (8): 2337-47.
	Xwnt-8b: a maternally expressed Xenopus Wnt gene with a potential role in establishing the dorsoventral axis., Cui Y., Development. July 1, 1995; 121 (7): 2177-86.
	The embryonic RNA helicase gene (ERH): a new member of the DEAD box family of RNA helicases., Sowden J., Biochem J. June 15, 1995; 308 ( Pt 3) 839-46.
	Effect of activin and lithium on isolated Xenopus animal blastomeres and response alteration at the midblastula transition., Kinoshita K., Development. June 1, 1995; 121 (6): 1581-9.
	Regulation of Spemann organizer formation by the intracellular kinase Xgsk-3., Pierce SB., Development. March 1, 1995; 121 (3): 755-65.
	Activin induces the expression of the Xenopus homologue of sonic hedgehog during mesoderm formation in Xenopus explants., Yokotal C., Biochem Biophys Res Commun. February 6, 1995; 207 (1): 1-7.
	Quantal puffs of intracellular Ca2+ evoked by inositol trisphosphate in Xenopus oocytes., Yao Y., J Physiol. February 1, 1995; 482 ( Pt 3) 533-53.
	Patterns of localization and cytoskeletal association of two vegetally localized RNAs, Vg1 and Xcat-2., Forristall C., Development. January 1, 1995; 121 (1): 201-8.
	Calcium puffs in Xenopus oocytes., Parker I., Ciba Found Symp. January 1, 1995; 188 50-60; discussion 60-5.
	Spatial and temporal expression of basic fibroblast growth factor (FGF-2) mRNA and protein in early Xenopus development., Song J., Mech Dev. December 1, 1994; 48 (3): 141-51.
	A fate map for the 32-cell stage of Rana pipiens., Saint-Jeannet JP., Dev Biol. December 1, 1994; 166 (2): 755-62.
	The hemispheric functional expression of the thyrotropin-releasing-hormone receptor is not determined by the receptors' physical distribution., Matus-Leibovitch N., Biochem J. October 1, 1994; 303 ( Pt 1) 129-34.
	Novel HOX, POU and FKH genes expressed during bFGF-induced mesodermal differentiation in Xenopus., King MW, King MW., Nucleic Acids Res. September 25, 1994; 22 (19): 3990-6.
	Provisional bilateral symmetry in Xenopus eggs is established during maturation., Brown EE., Zygote. August 1, 1994; 2 (3): 213-20.
	The cleavage stage origin of Spemann's Organizer: analysis of the movements of blastomere clones before and during gastrulation in Xenopus., Bauer DV., Development. May 1, 1994; 120 (5): 1179-89.
	Confocal microscopy of F-actin distribution in Xenopus oocytes., Roeder AD., Zygote. May 1, 1994; 2 (2): 111-24.
	An3 mRNA encodes an RNA helicase that colocalizes with nucleoli in Xenopus oocytes in a stage-specific manner., Gururajan R., Proc Natl Acad Sci U S A. March 15, 1994; 91 (6): 2056-60.
	Highly polarized EGF receptor tyrosine kinase activity initiates egg activation in Xenopus., Yim DL., Dev Biol. March 1, 1994; 162 (1): 41-55.
	The four animal blastomeres of the eight-cell stage of Xenopus laevis are intrinsically capable of differentiating into dorsal mesodermal derivatives., Grunz H., Int J Dev Biol. March 1, 1994; 38 (1): 69-76.
	Fibroblast growth factor, but not activin, is a potent activator of mitogen-activated protein kinase in Xenopus explants., Graves LM., Proc Natl Acad Sci U S A. March 1, 1994; 91 (5): 1662-6.
	Presence of inositol 1,4,5-trisphosphate receptor, calreticulin, and calsequestrin in eggs of sea urchins and Xenopus laevis., Parys JB., Dev Biol. February 1, 1994; 161 (2): 466-76.

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