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The early dorsal signal in vertebrate embryos requires endolysosomal membrane trafficking. , Azbazdar Y., Bioessays. January 1, 2024; 46 (1): e2300179.
TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis. , Chen M., Elife. September 14, 2020; 9
Dissecting BMP signaling input into the gene regulatory networks driving specification of the blood stem cell lineage. , Kirmizitas A., Proc Natl Acad Sci U S A. June 6, 2017; 114 (23): 5814-5821.
Hedgehog-dependent E3-ligase Midline1 regulates ubiquitin-mediated proteasomal degradation of Pax6 during visual system development. , Pfirrmann T ., Proc Natl Acad Sci U S A. September 6, 2016; 113 (36): 10103-8.
Notum is required for neural and head induction via Wnt deacylation, oxidation, and inactivation. , Zhang X., Dev Cell. March 23, 2015; 32 (6): 719-30.
Chibby functions in Xenopus ciliary assembly, embryonic development, and the regulation of gene expression. , Shi J., Dev Biol. November 15, 2014; 395 (2): 287-98.
Regulation of primitive hematopoiesis by class I histone deacetylases. , Shah RR., Dev Dyn. February 1, 2013; 242 (2): 108-21.
Essential role of AWP1 in neural crest specification in Xenopus. , Seo JH., Int J Dev Biol. January 1, 2013; 57 (11-12): 829-36.
sizzled function and secreted factor network dynamics. , Shi J., Biol Open. March 15, 2012; 1 (3): 286-94.
EBF proteins participate in transcriptional regulation of Xenopus muscle development. , Green YS., Dev Biol. October 1, 2011; 358 (1): 240-50.
Peter Pan functions independently of its role in ribosome biogenesis during early eye and craniofacial cartilage development in Xenopus laevis. , Bugner V., Development. June 1, 2011; 138 (11): 2369-78.
Transdifferentiation from cornea to lens in Xenopus laevis depends on BMP signalling and involves upregulation of Wnt signalling. , Day RC., BMC Dev Biol. January 26, 2011; 11 54.
Programming pluripotent precursor cells derived from Xenopus embryos to generate specific tissues and organs. , Borchers A ., Genes (Basel). November 18, 2010; 1 (3): 413-26.
Dazap2 is required for FGF-mediated posterior neural patterning, independent of Wnt and Cdx function. , Roche DD., Dev Biol. September 1, 2009; 333 (1): 26-36.
Xenopus SMOC-1 Inhibits bone morphogenetic protein signaling downstream of receptor binding and is essential for postgastrulation development in Xenopus. , Thomas JT., J Biol Chem. July 10, 2009; 284 (28): 18994-9005.
Tumor necrosis factor-receptor-associated factor-4 is a positive regulator of transforming growth factor-beta signaling that affects neural crest formation. , Kalkan T., Mol Biol Cell. July 1, 2009; 20 (14): 3436-50.
Modulation of the beta-catenin signaling pathway by the dishevelled-associated protein Hipk1. , Louie SH., PLoS One. January 1, 2009; 4 (2): e4310.
Chordin affects pronephros development in Xenopus embryos by anteriorizing presomitic mesoderm. , Mitchell T., Dev Dyn. January 1, 2007; 236 (1): 251-61.
Heading in a new direction: implications of the revised fate map for understanding Xenopus laevis development. , Lane MC ., Dev Biol. August 1, 2006; 296 (1): 12-28.
The doublesex-related gene, XDmrt4, is required for neurogenesis in the olfactory system. , Huang X ., Proc Natl Acad Sci U S A. August 9, 2005; 102 (32): 11349-54.
Exploration of the extracellular space by a large-scale secretion screen in the early Xenopus embryo. , Pera EM ., Int J Dev Biol. January 1, 2005; 49 (7): 781-96.
X-epilectin: a novel epidermal fucolectin regulated by BMP signalling. , Massé K ., Int J Dev Biol. December 1, 2004; 48 (10): 1119-29.
Cloning and characterization of Xenopus Id4 reveals differing roles for Id genes. , Liu KJ , Liu KJ ., Dev Biol. December 15, 2003; 264 (2): 339-51.
The pro-BMP activity of Twisted gastrulation is independent of BMP binding. , Oelgeschläger M ., Development. September 1, 2003; 130 (17): 4047-56.
Xenopus X-box binding protein 1, a leucine zipper transcription factor, is involved in the BMP signaling pathway. , Zhao H ., Dev Biol. May 15, 2003; 257 (2): 278-91.
Smad10 is required for formation of the frog nervous system. , LeSueur JA., Dev Cell. June 1, 2002; 2 (6): 771-83.
The FGFR pathway is required for the trunk-inducing functions of Spemann's organizer. , Mitchell TS., Dev Biol. September 15, 2001; 237 (2): 295-305.
A direct screen for secreted proteins in Xenopus embryos identifies distinct activities for the Wnt antagonists Crescent and Frzb-1. , Pera EM ., Mech Dev. September 1, 2000; 96 (2): 183-95.
The maternal Xenopus beta-catenin signaling pathway, activated by frizzled homologs, induces goosecoid in a cell non-autonomous manner. , Brown JD., Dev Growth Differ. August 1, 2000; 42 (4): 347-57.
Amphibian embryos as a model system for organ engineering: in vitro induction and rescue of the heart anlage. , Grunz H ., Int J Dev Biol. July 1, 1999; 43 (4): 361-4.
The Xenopus dorsalizing factor Gremlin identifies a novel family of secreted proteins that antagonize BMP activities. , Hsu DR., Mol Cell. April 1, 1998; 1 (5): 673-83.
Expression of Xfz3, a Xenopus frizzled family member, is restricted to the early nervous system. , Shi DL ., Mech Dev. January 1, 1998; 70 (1-2): 35-47.
Cell-cell signalling: frog frizbees. , Zorn AM ., Curr Biol. August 1, 1997; 7 (8): R501-4.
Identification of XLerk, an Eph family ligand regulated during mesoderm induction and neurogenesis in Xenopus laevis. , Jones TL., Oncogene. May 8, 1997; 14 (18): 2159-66.
Frzb-1 is a secreted antagonist of Wnt signaling expressed in the Spemann organizer. , Leyns L., Cell. March 21, 1997; 88 (6): 747-56.
Dorsalizing and neuralizing properties of Xdsh, a maternally expressed Xenopus homolog of dishevelled. , Sokol SY ., Development. June 1, 1995; 121 (6): 1637-47.
Induction of the prospective neural crest of Xenopus. , Mayor R ., Development. March 1, 1995; 121 (3): 767-77.
XIPOU 2, a noggin-inducible gene, has direct neuralizing activity. , Witta SE., Development. March 1, 1995; 121 (3): 721-30.
Secreted noggin protein mimics the Spemann organizer in dorsalizing Xenopus mesoderm. , Smith WC ., Nature. February 11, 1993; 361 (6412): 547-9.