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Summary Anatomy Item Literature (1239) Expression Attributions Wiki
XB-ANAT-48

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The sacral neural crest contributes neurons and glia to the post-umbilical gut: spatiotemporal analysis of the development of the enteric nervous system., Burns AJ., Development. November 1, 1998; 125 (21): 4335-47.

Functional and biochemical interactions of Wnts with FrzA, a secreted Wnt antagonist., Xu Q., Development. December 1, 1998; 125 (23): 4767-76.  

Neural crest-specific and general expression of distinct metalloprotease-disintegrins in early Xenopus laevis development., Cai H., Dev Biol. December 15, 1998; 204 (2): 508-24.      

Characterization of the Ets-type protein ER81 in Xenopus embryos., Chen Y, Chen Y., Mech Dev. January 1, 1999; 80 (1): 67-76.                    

The Xenopus Ets transcription factor XER81 is a target of the FGF signaling pathway., Münchberg SR., Mech Dev. January 1, 1999; 80 (1): 53-65.            

Xenopus brain factor-2 controls mesoderm, forebrain and neural crest development., Gómez-Skarmeta JL., Mech Dev. January 1, 1999; 80 (1): 15-27.              

Development of neural crest in Xenopus., Mayor R., Curr Top Dev Biol. January 1, 1999; 43 85-113.

Molecular mechanisms of neural crest formation., LaBonne C., Annu Rev Cell Dev Biol. January 1, 1999; 15 81-112.

The RNA-editing enzyme ADAR1 is localized to the nascent ribonucleoprotein matrix on Xenopus lampbrush chromosomes but specifically associates with an atypical loop., Eckmann CR., J Cell Biol. February 22, 1999; 144 (4): 603-15.            

Ion binding and permeation through the lepidopteran amino acid transporter KAAT1 expressed in Xenopus oocytes., Bossi E., J Physiol. March 15, 1999; 515 ( Pt 3) 729-42.

Expression of retinoic acid 4-hydroxylase (CYP26) during mouse and Xenopus laevis embryogenesis., de Roos K., Mech Dev. April 1, 1999; 82 (1-2): 205-11.    

A new secreted protein that binds to Wnt proteins and inhibits their activities., Hsieh JC., Nature. April 1, 1999; 398 (6726): 431-6.    

Early specification of sensory neuron fate revealed by expression and function of neurogenins in the chick embryo., Perez SE., Development. April 1, 1999; 126 (8): 1715-28.

A developmental pathway controlling outgrowth of the Xenopus tail bud., Beck CW., Development. April 1, 1999; 126 (8): 1611-20.                

A novel BMP expressed in developing mouse limb, spinal cord, and tail bud is a potent mesoderm inducer in Xenopus embryos., Gamer LW., Dev Biol. April 1, 1999; 208 (1): 222-32.        

Regulation of DNA binding activity and nuclear transport of B-Myb in Xenopus oocytes., Humbert-Lan G., J Biol Chem. April 9, 1999; 274 (15): 10293-300.                

The first-nucleotide binding domain of the cystic-fibrosis transmembrane conductance regulator is important for inhibition of the epithelial Na+ channel., Schreiber R., Proc Natl Acad Sci U S A. April 27, 1999; 96 (9): 5310-5.

Elucidating the origins of the vascular system: a fate map of the vascular endothelial and red blood cell lineages in Xenopus laevis., Mills KR., Dev Biol. May 15, 1999; 209 (2): 352-68.                

Immediate upstream sequence of arrestin directs rod-specific expression in Xenopus., Mani SS., J Biol Chem. May 28, 1999; 274 (22): 15590-7.              

Alternative splicing and embryonic expression of the Xenopus mad4 bHLH gene., Newman CS., Dev Dyn. June 1, 1999; 215 (2): 170-8.            

Two novel Xenopus frizzled genes expressed in developing heart and brain., Wheeler GN., Mech Dev. August 1, 1999; 86 (1-2): 203-7.    

Maternal and embryonic expression of zebrafish lef1., Dorsky RI., Mech Dev. August 1, 1999; 86 (1-2): 147-50.

Conservation of gene expression during embryonic lens formation and cornea-lens transdifferentiation in Xenopus laevis., Schaefer JJ., Dev Dyn. August 1, 1999; 215 (4): 308-18.        

Post-transcriptional regulation of Xwnt-8 expression is required for normal myogenesis during vertebrate embryonic development., Tian Q., Development. August 1, 1999; 126 (15): 3371-80.                  

Xenopus GDF6, a new antagonist of noggin and a partner of BMPs., Chang C., Development. August 1, 1999; 126 (15): 3347-57.              

Giant eyes in Xenopus laevis by overexpression of XOptx2., Zuber ME., Cell. August 6, 1999; 98 (3): 341-52.              

Expression of Pax-3 in the lateral neural plate is dependent on a Wnt-mediated signal from posterior nonaxial mesoderm., Bang AG., Dev Biol. August 15, 1999; 212 (2): 366-80.          

Xoom: a novel oocyte membrane protein maternally expressed and involved in the gastrulation movement of Xenopus embryos., Hasegawa K., Int J Dev Biol. September 1, 1999; 43 (6): 479-85.                    

Dickkopf genes are co-ordinately expressed in mesodermal lineages., Monaghan AP., Mech Dev. September 1, 1999; 87 (1-2): 45-56.      

Inhibition of neural crest migration in Xenopus using antisense slug RNA., Carl TF., Dev Biol. September 1, 1999; 213 (1): 101-15.

Loss of ectodermal competence for lateral line placode formation in the direct developing frog Eleutherodactylus coqui., Schlosser G., Dev Biol. September 15, 1999; 213 (2): 354-69.                  

Vg1 RBP intracellular distribution and evolutionarily conserved expression at multiple stages during development., Zhang Q., Mech Dev. October 1, 1999; 88 (1): 101-6.        

Expression of the highly conserved RNA binding protein KOC in embryogenesis., Mueller-Pillasch F., Mech Dev. October 1, 1999; 88 (1): 95-9.  

Genomic structure and embryonic expression of the Xenopus winged helix factors XFD-13/13'., Köster M., Mech Dev. October 1, 1999; 88 (1): 89-93.        

A novel guanine exchange factor increases the competence of early ectoderm to respond to neural induction., Morgan R., Mech Dev. October 1, 1999; 88 (1): 67-72.        

Lineages and transcription factors in the specification of vertebrate primary sensory neurons., Anderson DJ., Curr Opin Neurobiol. October 1, 1999; 9 (5): 517-24.

Neural tube closure in Xenopus laevis involves medial migration, directed protrusive activity, cell intercalation and convergent extension., Davidson LA., Development. October 1, 1999; 126 (20): 4547-56.              

Synergism between Pax-8 and lim-1 in embryonic kidney development., Carroll TJ., Dev Biol. October 1, 1999; 214 (1): 46-59.        

Functional association of retinoic acid and hedgehog signaling in Xenopus primary neurogenesis., Franco PG., Development. October 1, 1999; 126 (19): 4257-65.          

A novel sulfonylurea receptor family member expressed in the embryonic Drosophila dorsal vessel and tracheal system., Nasonkin I., J Biol Chem. October 8, 1999; 274 (41): 29420-5.

Gut specific expression using mammalian promoters in transgenic Xenopus laevis., Beck CW., Mech Dev. November 1, 1999; 88 (2): 221-7.              

Properties of the mutant Ser-460-Cys implicate this site in a functionally important region of the type IIa Na(+)/P(i) cotransporter protein., Lambert G., J Gen Physiol. November 1, 1999; 114 (5): 637-52.                    

A two-step mechanism generates the spacing pattern of the ciliated cells in the skin of Xenopus embryos., Deblandre GA., Development. November 1, 1999; 126 (21): 4715-28.                  

Genomic organization, expression, and chromosome location of the human SNAIL gene (SNAI1) and a related processed pseudogene (SNAI1P)., Paznekas WA., Genomics. November 15, 1999; 62 (1): 42-9.

Xl erg: expression pattern and overexpression during development plead for a role in endothelial cell differentiation., Baltzinger M., Dev Dyn. December 1, 1999; 216 (4-5): 420-33.

Comparative analysis of embryonic gene expression defines potential interaction sites for Xenopus EphB4 receptors with ephrin-B ligands., Helbling PM., Dev Dyn. December 1, 1999; 216 (4-5): 361-73.      

Induction and differentiation of the neural crest., García-Castro M., Curr Opin Cell Biol. December 1, 1999; 11 (6): 695-8.

Expression of Frzb-1 during chick development., Duprez D., Mech Dev. December 1, 1999; 89 (1-2): 179-83.

Involvement of the small GTPases XRhoA and XRnd1 in cell adhesion and head formation in early Xenopus development., Wünnenberg-Stapleton K., Development. December 1, 1999; 126 (23): 5339-51.    

Frog skeletal muscle fibers recovering from fatigue have reduced charge movement., Bruton JD., J Muscle Res Cell Motil. January 1, 2000; 21 (7): 621-8.

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