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Structure and functional properties of Norrin mimic Wnt for signalling with Frizzled4, Lrp5/6, and proteoglycan. , Chang TH., Elife. July 9, 2015; 4
Dissection of a Ciona regulatory element reveals complexity of cross-species enhancer activity. , Chen WC., Dev Biol. June 15, 2014; 390 (2): 261-72.
Modeling human neurodevelopmental disorders in the Xenopus tadpole: from mechanisms to therapeutic targets. , Pratt KG ., Dis Model Mech. September 1, 2013; 6 (5): 1057-65.
Monitoring of single-cell responses in the optic tectum of adult zebrafish with dextran-coupled calcium dyes delivered via local electroporation. , Kassing V., PLoS One. May 7, 2013; 8 (5): e62846.
Xenopus Zic3 controls notochord and organizer development through suppression of the Wnt/ β-catenin signaling pathway. , Fujimi TJ ., Dev Biol. January 15, 2012; 361 (2): 220-31.
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.
Expression patterns of genes encoding small GTPases Ras-dva-1 and Ras-dva-2 in the Xenopus laevis tadpoles. , Tereshina MB., Gene Expr Patterns. January 1, 2011; 11 (1-2): 156-61.
MID1 and MID2 are required for Xenopus neural tube closure through the regulation of microtubule organization. , Suzuki M ., Development. July 1, 2010; 137 (14): 2329-39.
In vivo spike-timing-dependent plasticity in the optic tectum of Xenopus laevis. , Richards BA., Front Synaptic Neurosci. June 10, 2010; 2 7.
FMR1/ FXR1 and the miRNA pathway are required for eye and neural crest development. , Gessert S., Dev Biol. May 1, 2010; 341 (1): 222-35.
Thyroid hormone receptor subtype specificity for hormone-dependent neurogenesis in Xenopus laevis. , Denver RJ ., Dev Biol. February 1, 2009; 326 (1): 155-68.
A role for Xvax2 in controlling proliferation of Xenopus ventral eye and brain progenitors. , Liu M., Dev Dyn. November 1, 2008; 237 (11): 3387-93.
Distribution and corticosteroid regulation of glucocorticoid receptor in the brain of Xenopus laevis. , Yao M., J Comp Neurol. June 20, 2008; 508 (6): 967-82.
The functions and possible significance of Kremen as the gatekeeper of Wnt signalling in development and pathology. , Nakamura T., J Cell Mol Med. April 1, 2008; 12 (2): 391-408.
Evidences for tangential migrations in Xenopus telencephalon: developmental patterns and cell tracking experiments. , Moreno N ., Dev Neurobiol. March 1, 2008; 68 (4): 504-20.
Olfactory and lens placode formation is controlled by the hedgehog-interacting protein ( Xhip) in Xenopus. , Cornesse Y., Dev Biol. January 15, 2005; 277 (2): 296-315.
Molecular anatomy of placode development in Xenopus laevis. , Schlosser G ., Dev Biol. July 15, 2004; 271 (2): 439-66.
New views on retinal axon development: a navigation guide. , Mann F., Int J Dev Biol. January 1, 2004; 48 (8-9): 957-64.
Kremen proteins interact with Dickkopf1 to regulate anteroposterior CNS patterning. , Davidson G., Development. December 1, 2002; 129 (24): 5587-96.
Expression of CRYP-alpha, LAR, PTP-delta, and PTP- rho in the developing Xenopus visual system. , Johnson KG., Mech Dev. April 1, 2000; 92 (2): 291-4.
Patterns of calretinin, calbindin, and tyrosine-hydroxylase expression are consistent with the prosomeric map of the frog diencephalon. , Milán FJ., J Comp Neurol. March 27, 2000; 419 (1): 96-121.
A role for voltage-gated potassium channels in the outgrowth of retinal axons in the developing visual system. , McFarlane S ., J Neurosci. February 1, 2000; 20 (3): 1020-9.
Synergism between Pax-8 and lim-1 in embryonic kidney development. , Carroll TJ ., Dev Biol. October 1, 1999; 214 (1): 46-59.
The expression pattern of thyroid hormone response genes in remodeling tadpole tissues defines distinct growth and resorption gene expression programs. , Berry DL., Dev Biol. November 1, 1998; 203 (1): 24-35.
Basal ganglia organization in amphibians: chemoarchitecture. , Marín O., J Comp Neurol. March 16, 1998; 392 (3): 285-312.
The cellular patterns of BDNF and trkB expression suggest multiple roles for BDNF during Xenopus visual system development. , Cohen-Cory S ., Dev Biol. October 10, 1996; 179 (1): 102-15.
Integrin alpha 6 expression is required for early nervous system development in Xenopus laevis. , Lallier TE., Development. August 1, 1996; 122 (8): 2539-54.
The LIM homeodomain protein Lim-1 is widely expressed in neural, neural crest and mesoderm derivatives in vertebrate development. , Karavanov AA., Int J Dev Biol. April 1, 1996; 40 (2): 453-61.
Factors responsible for the establishment of the body plan in the amphibian embryo. , Grunz H ., Int J Dev Biol. February 1, 1996; 40 (1): 279-89.
Developmental expression of a neuron-specific beta-tubulin in frog (Xenopus laevis): a marker for growing axons during the embryonic period. , Moody SA ., J Comp Neurol. January 8, 1996; 364 (2): 219-30.
Differential effects of retinoic acid and a retinoid antagonist on the spatial distribution of the homeoprotein Hoxb-7 in vertebrate embryos. , López SL ., Dev Dyn. December 1, 1995; 204 (4): 457-71.
Plexin: a novel neuronal cell surface molecule that mediates cell adhesion via a homophilic binding mechanism in the presence of calcium ions. , Ohta K., Neuron. June 1, 1995; 14 (6): 1189-99.
Immunochemical localization of calcium/calmodulin-dependent protein kinase I. , Picciotto MR., Synapse. May 1, 1995; 20 (1): 75-84.
Pagliaccio, a member of the Eph family of receptor tyrosine kinase genes, has localized expression in a subset of neural crest and neural tissues in Xenopus laevis embryos. , Winning RS., Mech Dev. June 1, 1994; 46 (3): 219-29.
Xwnt-5A: a maternal Wnt that affects morphogenetic movements after overexpression in embryos of Xenopus laevis. , Moon RT ., Development. September 1, 1993; 119 (1): 97-111.
Correlated onset and patterning of proopiomelanocortin gene expression in embryonic Xenopus brain and pituitary. , Hayes WP., Development. November 1, 1990; 110 (3): 747-57.
Characterization and developmental expression of Xenopus proliferating cell nuclear antigen ( PCNA). , Leibovici M., Dev Biol. September 1, 1990; 141 (1): 183-92.
Specific cell surface labels in the visual centers of Xenopus laevis tadpole identified using monoclonal antibodies. , Takagi S ., Dev Biol. July 1, 1987; 122 (1): 90-100.