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	Intracellular signalling pathways involved in mesoderm induction by FGF., Gillespie LL., Mech Dev. August 1, 1992; 38 (2): 99-107.
	Suramin changes the fate of Spemann's organizer and prevents neural induction in Xenopus laevis., Grunz H., Mech Dev. August 1, 1992; 38 (2): 133-41.
	Activin A induced expression of a fork head related gene in posterior chordamesoderm (notochord) of Xenopus laevis embryos., Knöchel S., Mech Dev. August 1, 1992; 38 (2): 157-65.
	A novel homeobox gene expressed in the anterior neural plate of the Xenopus embryo., Zaraisky AG., Dev Biol. August 1, 1992; 152 (2): 373-82.
	N-cadherin transcripts in Xenopus laevis from early tailbud to tadpole., Simonneau L., Dev Dyn. August 1, 1992; 194 (4): 247-60.
	Magainin 2, a natural antibiotic from frog skin, forms ion channels in lipid bilayer membranes., Cruciani RA., Eur J Pharmacol. August 3, 1992; 226 (4): 287-96.
	Genes for bone morphogenetic proteins are differentially transcribed in early amphibian embryos., Nishimatsu S., Biochem Biophys Res Commun. August 14, 1992; 186 (3): 1487-95.
	Isolation and characterization of native activin B., Nakamura T., J Biol Chem. August 15, 1992; 267 (23): 16385-9.
	Two gap junction genes, connexin 31.1 and 30.3, are closely linked on mouse chromosome 4 and preferentially expressed in skin., Hennemann H., J Biol Chem. August 25, 1992; 267 (24): 17225-33.
	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., Development. September 1, 1992; 116 (1): 81-93.
	Planar and vertical signals in the induction and patterning of the Xenopus nervous system., Ruiz i Altaba A., Development. September 1, 1992; 116 (1): 67-80.
	Expression of four zebrafish wnt-related genes during embryogenesis., Krauss S., Development. September 1, 1992; 116 (1): 249-59.
	Cloning and developmental expression of Sna, a murine homologue of the Drosophila snail gene., Nieto MA., Development. September 1, 1992; 116 (1): 227-37.
	Expression and potential functions of G-protein alpha subunits in embryos of Xenopus laevis., Otte AP., Development. September 1, 1992; 116 (1): 141-6.
	Synergistic principles of development: overlapping patterning systems in Xenopus mesoderm induction., Kimelman D., Development. September 1, 1992; 116 (1): 1-9.
	Over-expression of fibroblast growth factors in Xenopus embryos., Thompson J., Mech Dev. September 1, 1992; 38 (3): 175-82.
	Expression of tenascin mRNA in mesoderm during Xenopus laevis embryogenesis: the potential role of mesoderm patterning in tenascin regionalization., Umbhauer M., Development. September 1, 1992; 116 (1): 147-57.
	Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos., Smith WC., Cell. September 4, 1992; 70 (5): 829-40.
	Phase-dependent Modulation of a Cutaneous Sensory Pathway by Glycinergic Inhibition from the Locomotor Rhythm Generator in Xenopus Embryos., Sillar KT., Eur J Neurosci. October 1, 1992; 4 (11): 1022-1034.
	Characterization of the genomic corticotropin-releasing factor (CRF) gene from Xenopus laevis: two members of the CRF family exist in amphibians., Stenzel-Poore MP., Mol Endocrinol. October 1, 1992; 6 (10): 1716-24.
	The armadillo homologs beta-catenin and plakoglobin are differentially expressed during early development of Xenopus laevis., DeMarais AA., Dev Biol. October 1, 1992; 153 (2): 337-46.
	Characterization of a Xenopus laevis skin peptidylglycine alpha-hydroxylating monooxygenase expressed in insect-cell culture., Shimoi H., Eur J Biochem. October 1, 1992; 209 (1): 189-94.
	Mesoderm induction and axis determination in Xenopus laevis., Dawid IB., Bioessays. October 1, 1992; 14 (10): 687-91.
	An expression vector inhibits gene expression in Xenopus embryos by antisense RNA., Schmid M., Rouxs Arch Dev Biol. October 1, 1992; 201 (6): 340-345.
	Spatial and temporal localization of FGF receptors in Xenopus laevis., Ding XY., Rouxs Arch Dev Biol. October 1, 1992; 201 (6): 334-339.
	Mesoderm and Neural Inductions on Newt Ectoderm by Activin A: (mesoderm induction/newt embryo/activin/EDF)., Moriya N., Dev Growth Differ. October 1, 1992; 34 (5): 589-594.
	Positive and Negative Regulation of the Differentiation of Ventral Mesoderm for Erythrocytes in Xenopus laevis: (Xenopus laevis/erythropoiesis/embryonic blood island/explant/regulation)., Maéno M., Dev Growth Differ. October 1, 1992; 34 (5): 567-577.
	A truncated activin receptor inhibits mesoderm induction and formation of axial structures in Xenopus embryos., Hemmati-Brivanlou A., Nature. October 15, 1992; 359 (6396): 609-14.
	Nuclear transport and phosphorylation of the RNA binding Xenopus zinc finger protein XFG 5-1., van Wijk I., Mech Dev. November 1, 1992; 39 (1-2): 63-72.
	Amphibian intestinal villin: isolation and expression during embryonic and larval development., Heusser S., J Cell Sci. November 1, 1992; 103 ( Pt 3) 699-708.
	Localization of xenopsin and xenopsin precursor fragment immunoreactivities in the skin and gastrointestinal tract of Xenopus laevis., Sadler KC., Cell Tissue Res. November 1, 1992; 270 (2): 257-63.
	Developmental sequence of expression of voltage-dependent currents in embryonic Xenopus laevis myocytes., Spruce AE., Dev Biol. November 1, 1992; 154 (1): 11-22.
	Intrinsic pigment-cell stimulating activity in the catfish integument., Zuasti A., Pigment Cell Res. November 1, 1992; 5 (5 Pt 1): 253-62.
	Structure and early embryonic expression of the zebrafish engrailed-2 gene., Fjose A., Mech Dev. November 1, 1992; 39 (1-2): 51-62.
	Two isoforms of retinoic acid receptor alpha expressed during Xenopus development respond to retinoic acid., Sharpe CR., Mech Dev. November 1, 1992; 39 (1-2): 81-93.
	Xenopus Gastrulation without a blastocoel roof., Keller R., Dev Dyn. November 1, 1992; 195 (3): 162-76.
	A carboxyl-terminal truncated version of the activin receptor mediates activin signals in early Xenopus embryos., Nishimatsu S., FEBS Lett. November 9, 1992; 312 (2-3): 169-73.
	Cooperative interactions among subunits of a voltage-dependent potassium channel. Evidence from expression of concatenated cDNAs., Hurst RS., J Biol Chem. November 25, 1992; 267 (33): 23742-5.
	Responses of embryonic Xenopus cells to activin and FGF are separated by multiple dose thresholds and correspond to distinct axes of the mesoderm., Green JB., Cell. November 27, 1992; 71 (5): 731-9.
	Competence modifiers synergize with growth factors during mesoderm induction and patterning in Xenopus., Moon RT., Cell. November 27, 1992; 71 (5): 709-12.
	Brevinin-1 and -2, unique antimicrobial peptides from the skin of the frog, Rana brevipoda porsa., Morikawa N., Biochem Biophys Res Commun. November 30, 1992; 189 (1): 184-90.
	Expression analysis of a Notch homologue in the mouse embryo., Reaume AG., Dev Biol. December 1, 1992; 154 (2): 377-87.
	Interaction of Wnt and activin in dorsal mesoderm induction in Xenopus., Sokol SY., Dev Biol. December 1, 1992; 154 (2): 348-55.
	Cell interaction and its role in mesoderm cell migration during Xenopus gastrulation., Winklbauer R., Dev Dyn. December 1, 1992; 195 (4): 290-302.
	Patterns of cell motility in the organizer and dorsal mesoderm of Xenopus laevis., Shih J., Development. December 1, 1992; 116 (4): 915-30.
	The epithelium of the dorsal marginal zone of Xenopus has organizer properties., Shih J., Development. December 1, 1992; 116 (4): 887-99.
	Isolation of Sna, a mouse gene homologous to the Drosophila genes snail and escargot: its expression pattern suggests multiple roles during postimplantation development., Smith DE., Development. December 1, 1992; 116 (4): 1033-9.
	Fate of ciliated epidermal cells during early development of Xenopus laevis using whole-mount immunostaining with an antibody against chondroitin 6-sulfate proteoglycan and anti-tubulin: transdifferentiation or metaplasia of amphibian epidermis., Nishikawa S., Histochemistry. December 1, 1992; 98 (6): 355-8.
	Spatially restricted expression of fibroblast growth factor receptor-2 during Xenopus development., Friesel R., Development. December 1, 1992; 116 (4): 1051-8.
	Muscle-specific expression of SRF-related genes in the early embryo of Xenopus laevis., Chambers AE., EMBO J. December 1, 1992; 11 (13): 4981-91.

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