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A new mouse member of the Wnt gene family, mWnt-8, is expressed during early embryogenesis and is ectopically induced by retinoic acid. , Bouillet P., Mech Dev. August 1, 1996; 58 (1-2): 141-52.
Transcription of XLPOU3, a brain-specific gene, during Xenopus laevis early embryogenesis. , Baltzinger M., Mech Dev. August 1, 1996; 58 (1-2): 103-14.
Lens induction in axolotls: comparison with inductive signaling mechanisms in Xenopus laevis. , Servetnick MD ., Int J Dev Biol. August 1, 1996; 40 (4): 755-61.
What mechanisms drive neural induction and neural determination in urodeles? , Duprat AM., Int J Dev Biol. August 1, 1996; 40 (4): 745-54.
Developmental neurobiology of the anterior areas in amphibians: urodele perspectives. , Eagleson GW ., Int J Dev Biol. August 1, 1996; 40 (4): 735-43.
What insights into the phenomena of cell fate determination and cell migration has the study of the urodele neural crest provided? , Epperlein HH., Int J Dev Biol. August 1, 1996; 40 (4): 695-707.
Surface contraction and expansion waves correlated with differentiation in axolotl embryos. II. In contrast to urodeles, the anuran Xenopus laevis does not show furrowing surface contraction waves. , Nieuwkoop PD., Int J Dev Biol. August 1, 1996; 40 (4): 661-4.
The cell nucleus in early bovine and caprine preimplantation embryos: fine structural cytochemistry and immunoelectron microscopy. , Kopecny V., Eur J Cell Biol. August 1, 1996; 70 (4): 361-72.
XFGF-9: a new fibroblast growth factor from Xenopus embryos. , Song J., Dev Dyn. August 1, 1996; 206 (4): 427-36.
Xenopus connexin38 forms hemi-gap-junctional channels in the nonjunctional plasma membrane of Xenopus oocytes. , Ebihara L., Biophys J. August 1, 1996; 71 (2): 742-8.
Neural crest formation in Xenopus laevis: mechanisms of Xslug induction. , Mancilla A., Dev Biol. August 1, 1996; 177 (2): 580-9.
A novel mesoderm inducer, Madr2, functions in the activin signal transduction pathway. , Baker JC ., Genes Dev. August 1, 1996; 10 (15): 1880-9.
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 mothers against decapentaplegic is an embryonic ventralizing agent that acts downstream of the BMP-2/4 receptor. , Thomsen GH ., Development. August 1, 1996; 122 (8): 2359-66.
What mechanisms drive cell migration and cell interactions in Pleurodeles? , Boucaut JC ., Int J Dev Biol. August 1, 1996; 40 (4): 675-83.
A novel mutation in the mitochondrial tRNA(Thr) gene associated with a mitochondrial encephalomyopathy. , Nishino I., Biochem Biophys Res Commun. August 5, 1996; 225 (1): 180-5.
Onset of electrical excitability during a period of circus plasma membrane movements in differentiating Xenopus neurons. , Olson EC., J Neurosci. August 15, 1996; 16 (16): 5117-29.
The Xenopus dorsalizing factor noggin ventralizes Drosophila embryos by preventing DPP from activating its receptor. , Holley SA., Cell. August 23, 1996; 86 (4): 607-17.
The Spemann organizer signal noggin binds and inactivates bone morphogenetic protein 4. , Zimmerman LB ., Cell. August 23, 1996; 86 (4): 599-606.
Dorsoventral patterning in Xenopus: inhibition of ventral signals by direct binding of chordin to BMP-4. , Piccolo S ., Cell. August 23, 1996; 86 (4): 589-98.
Nuclear lamina and nuclear matrix organization in sperm pronuclei assembled in Xenopus egg extract. , Zhang C., J Cell Sci. September 1, 1996; 109 ( Pt 9) 2275-86.
Use dependence of tetrodotoxin block of sodium channels: a revival of the trapped-ion mechanism. , Conti F., Biophys J. September 1, 1996; 71 (3): 1295-312.
Adult-type splenocytes of Xenopus induce apoptosis of histocompatible larval tail cells in vitro. , Izutsu Y ., Differentiation. September 1, 1996; 60 (5): 277-86.
Light-sensitive response in melanophores of Xenopus laevis: I. Spectral characteristics of melanophore response in isolated tail fin of Xenopus tadpole. , Moriya T., J Exp Zool. September 1, 1996; 276 (1): 11-8.
Integrin-dependent adhesive activity is spatially controlled by inductive signals at gastrulation. , Ramos JW., Development. September 1, 1996; 122 (9): 2873-83.
Positive and negative signals modulate formation of the Xenopus cement gland. , Bradley L., Development. September 1, 1996; 122 (9): 2739-50.
Rapid acquisition of in vivo biological images by use of optical coherence tomography. , Tearney GJ., Opt Lett. September 1, 1996; 21 (17): 1408-10.
Restricting oxygen supply to the prospective dorsal side does not reverse axis polarity in embryos of Xenopus laevis. , Black SD., Dev Genes Evol. September 1, 1996; 206 (2): 147-52.
Endoderm induction by the organizer-secreted factors chordin and noggin in Xenopus animal caps. , Sasai Y ., EMBO J. September 2, 1996; 15 (17): 4547-55.
Embryonic mesoderm cells spread in response to platelet-derived growth factor and signaling by phosphatidylinositol 3-kinase. , Symes K ., Proc Natl Acad Sci U S A. September 3, 1996; 93 (18): 9641-4.
The role of BMP-4 and GATA-2 in the induction and differentiation of hematopoietic mesoderm in Xenopus laevis. , Maeno M., Blood. September 15, 1996; 88 (6): 1965-72.
In vivo evidence for trigeminal nerve guidance by the cement gland in Xenopus. , Honoré E., Dev Biol. September 15, 1996; 178 (2): 363-74.
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.
Expression of a new G protein-coupled receptor X- msr is associated with an endothelial lineage in Xenopus laevis. , Devic E., Mech Dev. October 1, 1996; 59 (2): 129-40.
Embryonic expression patterns of Xenopus syndecans. , Teel AL., Mech Dev. October 1, 1996; 59 (2): 115-27.
Catalytic and non-catalytic forms of the neurotrophin receptor xTrkB mRNA are expressed in a pseudo-segmental manner within the early Xenopus central nervous system. , Islam N ., Int J Dev Biol. October 1, 1996; 40 (5): 973-83.
Light-sensitive response in melanophores of Xenopus laevis: II. Rho is involved in light-induced melanin aggregation. , Miyashita Y., J Exp Zool. October 1, 1996; 276 (2): 125-31.
The homeobox gene Siamois is a target of the Wnt dorsalisation pathway and triggers organiser activity in the absence of mesoderm. , Carnac G ., Development. October 1, 1996; 122 (10): 3055-65.
Maternal beta-catenin establishes a 'dorsal signal' in early Xenopus embryos. , Wylie C ., Development. October 1, 1996; 122 (10): 2987-96.
Identification of a novel, sodium-dependent, reduced glutathione transporter in the rat lens epithelium. , Kannan R., Invest Ophthalmol Vis Sci. October 1, 1996; 37 (11): 2269-75.
Identification of neurogenin, a vertebrate neuronal determination gene. , Ma Q., Cell. October 4, 1996; 87 (1): 43-52.
Effects of intermediate filament disruption on the early development of the peripheral nervous system of Xenopus laevis. , Lin W., Dev Biol. October 10, 1996; 179 (1): 197-211.
Patterns of distal-less gene expression and inductive interactions in the head of the direct developing frog Eleutherodactylus coqui. , Fang H., Dev Biol. October 10, 1996; 179 (1): 160-72.
Membrane pores induced by magainin. , Ludtke SJ., Biochemistry. October 29, 1996; 35 (43): 13723-8.
xGCNF, a nuclear orphan receptor is expressed during neurulation in Xenopus laevis. , Joos TO ., Mech Dev. November 1, 1996; 60 (1): 45-57.
Analysis of chaperonin-containing TCP-1 subunits in the human keratinocyte two-dimensional protein database: further characterisation of antibodies to individual subunits. , Hynes G., Electrophoresis. November 1, 1996; 17 (11): 1720-7.
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.
Expression of a dominant-negative Wnt blocks induction of MyoD in Xenopus embryos. , Hoppler S ., Genes Dev. November 1, 1996; 10 (21): 2805-17.
cDNA cloning of a functional water channel from toad urinary bladder epithelium. , Ma T., Am J Physiol. November 1, 1996; 271 (5 Pt 1): C1699-704.