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Summary Anatomy Item Literature (1651) Expression Attributions Wiki
XB-ANAT-58

Papers associated with somite (and rac1)

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Caveolin 1 is required for axonal outgrowth of motor neurons and affects Xenopus neuromuscular development., Breuer M., Sci Rep. October 5, 2020; 10 (1): 16446.              

Evolution of the Rho guanine nucleotide exchange factors Kalirin and Trio and their gene expression in Xenopus development., Kratzer MC., Gene Expr Patterns. June 1, 2019; 32 18-27.                              

The Lhx1-Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development., Espiritu EB., Sci Rep. October 30, 2018; 8 (1): 16029.                                      

Cadherins function during the collective cell migration of Xenopus Cranial Neural Crest cells: revisiting the role of E-cadherin., Cousin H., Mech Dev. December 1, 2017; 148 79-88.    

The cellular and molecular mechanisms of tissue repair and regeneration as revealed by studies in Xenopus., Li J., Regeneration (Oxf). October 28, 2016; 3 (4): 198-208.        

Cadherin Switch during EMT in Neural Crest Cells Leads to Contact Inhibition of Locomotion via Repolarization of Forces., Scarpa E., Dev Cell. August 24, 2015; 34 (4): 421-34.                                            

The Rac1 regulator ELMO controls basal body migration and docking in multiciliated cells through interaction with Ezrin., Epting D., Development. January 1, 2015; 142 (1): 174-84.                                            

The Role of Sdf-1α signaling in Xenopus laevis somite morphogenesis., Leal MA., Dev Dyn. April 1, 2014; 243 (4): 509-26.                        

Par3 controls neural crest migration by promoting microtubule catastrophe during contact inhibition of locomotion., Moore R., Development. December 1, 2013; 140 (23): 4763-75.                                  

Directional migration of leading-edge mesoderm generates physical forces: Implication in Xenopus notochord formation during gastrulation., Hara Y., Dev Biol. October 15, 2013; 382 (2): 482-95.                  

Different thresholds of Wnt-Frizzled 7 signaling coordinate proliferation, morphogenesis and fate of endoderm progenitor cells., Zhang Z., Dev Biol. June 1, 2013; 378 (1): 1-12.                              

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.              

Evolution of vertebrate central nervous system is accompanied by novel expression changes of duplicate genes., Chen Y, Chen Y., J Genet Genomics. December 20, 2011; 38 (12): 577-84.                                                                                                                                                          

Blood vessel tubulogenesis requires Rasip1 regulation of GTPase signaling., Xu K., Dev Cell. April 19, 2011; 20 (4): 526-39.  

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.                      

Xenopus delta-catenin is essential in early embryogenesis and is functionally linked to cadherins and small GTPases., Gu D., J Cell Sci. November 15, 2009; 122 (Pt 22): 4049-61.            

Xenopus Rnd1 and Rnd3 GTP-binding proteins are expressed under the control of segmentation clock and required for somite formation., Goda T., Dev Dyn. November 1, 2009; 238 (11): 2867-76.            

Directional migration of neural crest cells in vivo is regulated by Syndecan-4/Rac1 and non-canonical Wnt signaling/RhoA., Matthews HK., Development. May 1, 2008; 135 (10): 1771-80.                    

Regulation of actin cytoskeleton architecture by Eps8 and Abi1., Roffers-Agarwal J., BMC Cell Biol. October 14, 2005; 6 36.                

Frodo proteins: modulators of Wnt signaling in vertebrate development., Brott BK., Differentiation. September 1, 2005; 73 (7): 323-9.      

Subcellular localization and signaling properties of dishevelled in developing vertebrate embryos., Park TJ., Curr Biol. June 7, 2005; 15 (11): 1039-44.                

FGF signal regulates gastrulation cell movements and morphology through its target NRH., Chung HA., Dev Biol. June 1, 2005; 282 (1): 95-110.                          

p120 catenin is required for morphogenetic movements involved in the formation of the eyes and the craniofacial skeleton in Xenopus., Ciesiolka M., J Cell Sci. August 15, 2004; 117 (Pt 18): 4325-39.                      

Rho guanine nucleotide exchange factor xNET1 implicated in gastrulation movements during Xenopus development., Miyakoshi A., Differentiation. February 1, 2004; 72 (1): 48-55.                  

Has2 is required upstream of Rac1 to govern dorsal migration of lateral cells during zebrafish gastrulation., Bakkers J., Development. February 1, 2004; 131 (3): 525-37.

Distinct functions of Rho and Rac are required for convergent extension during Xenopus gastrulation., Tahinci E., Dev Biol. July 15, 2003; 259 (2): 318-35.    

Localization of two IQGAPs in cultured cells and early embryos of Xenopus laevis., Yamashiro S., Cell Motil Cytoskeleton. May 1, 2003; 55 (1): 36-50.

cDNA cloning, sequence comparison, and developmental expression of Xenopus rac1., Lucas JM., Mech Dev. July 1, 2002; 115 (1-2): 113-6.          

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