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Summary Anatomy Item Literature (314) Expression Attributions Wiki
XB-ANAT-1520

Papers associated with endoskeleton (and actl6a)

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5-Mehtyltetrahydrofolate rescues alcohol-induced neural crest cell migration abnormalities., Shi Y, Shi Y., Mol Brain. September 16, 2014; 7 67.        

Plasticity of lung development in the amphibian, Xenopus laevis., Rose CS., Biol Open. December 15, 2013; 2 (12): 1324-35.      

Role of Sp5 as an essential early regulator of neural crest specification in xenopus., Park DS., Dev Dyn. December 1, 2013; 242 (12): 1382-94.                

A conserved Oct4/POUV-dependent network links adhesion and migration to progenitor maintenance., Livigni A., Curr Biol. November 18, 2013; 23 (22): 2233-2244.                                    

Germline Transgenic Methods for Tracking Cells and Testing Gene Function during Regeneration in the Axolotl., Khattak S., Stem Cell Reports. June 4, 2013; 1 (1): 90-103.            

Pax3 and Zic1 drive induction and differentiation of multipotent, migratory, and functional neural crest in Xenopus embryos., Milet C., Proc Natl Acad Sci U S A. April 2, 2013; 110 (14): 5528-33.                      

Calponin 2 acts as an effector of noncanonical Wnt-mediated cell polarization during neural crest cell migration., Ulmer B., Cell Rep. March 28, 2013; 3 (3): 615-21.              

Essential role of AWP1 in neural crest specification in Xenopus., Seo JH., Int J Dev Biol. January 1, 2013; 57 (11-12): 829-36.                  

Median facial clefts in Xenopus laevis: roles of retinoic acid signaling and homeobox genes., Kennedy AE., Dev Biol. May 1, 2012; 365 (1): 229-40.                              

Histology of plastic embedded amphibian embryos and larvae., Kurth T., Genesis. March 1, 2012; 50 (3): 235-50.                                

Targeted inactivation of Snail family EMT regulatory factors by a Co(III)-Ebox conjugate., Harney AS., PLoS One. January 1, 2012; 7 (2): e32318.            

Remobilization of Sleeping Beauty transposons in the germline of Xenopus tropicalis., Yergeau DA., Mob DNA. November 24, 2011; 2 15.              

Caldesmon regulates actin dynamics to influence cranial neural crest migration in Xenopus., Nie S., Mol Biol Cell. September 1, 2011; 22 (18): 3355-65.                                                

WNT-3A modulates articular chondrocyte phenotype by activating both canonical and noncanonical pathways., Nalesso G., J Cell Biol. May 2, 2011; 193 (3): 551-64.              

Activity of the RhoU/Wrch1 GTPase is critical for cranial neural crest cell migration., Fort P., Dev Biol. February 15, 2011; 350 (2): 451-63.                      

ADAM13 induces cranial neural crest by cleaving class B Ephrins and regulating Wnt signaling., Wei S., Dev Cell. August 17, 2010; 19 (2): 345-52.        

Proteomic analysis of blastema formation in regenerating axolotl limbs., Rao N., BMC Biol. November 30, 2009; 7 83.            

Myosin-X is required for cranial neural crest cell migration in Xenopus laevis., Hwang YS., Dev Dyn. October 1, 2009; 238 (10): 2522-9.      

The Wnt antagonists Frzb-1 and Crescent locally regulate basement membrane dissolution in the developing primary mouth., Dickinson AJ., Development. April 1, 2009; 136 (7): 1071-81.                                      

Binding of sFRP-3 to EGF in the extra-cellular space affects proliferation, differentiation and morphogenetic events regulated by the two molecules., Scardigli R., PLoS One. June 18, 2008; 3 (6): e2471.                    

Lrig3 regulates neural crest formation in Xenopus by modulating Fgf and Wnt signaling pathways., Zhao H., Development. April 1, 2008; 135 (7): 1283-93.                            

Inca: a novel p21-activated kinase-associated protein required for cranial neural crest development., Luo T., Development. April 1, 2007; 134 (7): 1279-89.      

Thyroid hormone controls multiple independent programs required for limb development in Xenopus laevis metamorphosis., Brown DD., Proc Natl Acad Sci U S A. August 30, 2005; 102 (35): 12455-8.        

Androgen-directed development of the Xenopus laevis larynx: control of androgen receptor expression and tissue differentiation., Fischer LM., Dev Biol. July 1, 1995; 170 (1): 115-26.            

Sexually dimorphic expression of a laryngeal-specific, androgen-regulated myosin heavy chain gene during Xenopus laevis development., Catz DS., Dev Biol. December 1, 1992; 154 (2): 366-76.              

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