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Summary Anatomy Item Literature (4897) Expression Attributions Wiki
XB-ANAT-3713

Papers associated with left (and pcdh8.2)

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Pinhead signaling regulates mesoderm heterogeneity via FGF receptor-dependent pathway., Ossipova O., Development. January 1, 2020;                                       

The PTK7 and ROR2 Protein Receptors Interact in the Vertebrate WNT/Planar Cell Polarity (PCP) Pathway., Martinez S., J Biol Chem. December 18, 2015; 290 (51): 30562-72.                        

Sebox regulates mesoderm formation in early amphibian embryos., Chen G., Dev Dyn. November 1, 2015; 244 (11): 1415-26.              

PAPC mediates self/non-self-distinction during Snail1-dependent tissue separation., Luu O., J Cell Biol. March 16, 2015; 208 (6): 839-56.                    

The alternative splicing regulator Tra2b is required for somitogenesis and regulates splicing of an inhibitory Wnt11b isoform., Dichmann DS., Cell Rep. February 3, 2015; 10 (4): 527-36.                    

GSK3 and Polo-like kinase regulate ADAM13 function during cranial neural crest cell migration., Abbruzzese G., Mol Biol Cell. December 15, 2014; 25 (25): 4072-82.                                    

Genome-wide view of TGFβ/Foxh1 regulation of the early mesendoderm program., Chiu WT., Development. December 1, 2014; 141 (23): 4537-47.                                  

Polarized Wnt signaling regulates ectodermal cell fate in Xenopus., Huang YL., Dev Cell. April 28, 2014; 29 (2): 250-7.                  

Protocadherin PAPC is expressed in the CNC and can compensate for the loss of PCNS., Schneider M., Genesis. February 1, 2014; 52 (2): 120-6.        

Pou-V factor Oct25 regulates early morphogenesis in Xenopus laevis., Julier A., Dev Growth Differ. September 1, 2012; 54 (7): 702-16.              

Cadherin-dependent differential cell adhesion in Xenopus causes cell sorting in vitro but not in the embryo., Ninomiya H., J Cell Sci. April 15, 2012; 125 (Pt 8): 1877-83.              

PAPC and the Wnt5a/Ror2 pathway control the invagination of the otic placode in Xenopus., Jung B., BMC Dev Biol. June 10, 2011; 11 36.                          

EBF factors drive expression of multiple classes of target genes governing neuronal development., Green YS., Neural Dev. April 30, 2011; 6 19.                                                          

The involvement of Eph-Ephrin signaling in tissue separation and convergence during Xenopus gastrulation movements., Park EC., Dev Biol. February 15, 2011; 350 (2): 441-50.                          

Translocation of the cytoplasmic domain of ADAM13 to the nucleus is essential for Calpain8-a expression and cranial neural crest cell migration., Cousin H., Dev Cell. February 15, 2011; 20 (2): 256-63.        

The nephrogenic potential of the transcription factors osr1, osr2, hnf1b, lhx1 and pax8 assessed in Xenopus animal caps., Drews C., BMC Dev Biol. January 31, 2011; 11 5.              

Distinct Xenopus Nodal ligands sequentially induce mesendoderm and control gastrulation movements in parallel to the Wnt/PCP pathway., Luxardi G., Development. February 1, 2010; 137 (3): 417-26.          

Down syndrome critical region protein 5 regulates membrane localization of Wnt receptors, Dishevelled stability and convergent extension in vertebrate embryos., Shao M., Development. June 1, 2009; 136 (12): 2121-31.                  

Coordination of cell polarity during Xenopus gastrulation., Shindo A., PLoS One. February 6, 2008; 3 (2): e1600.              

Identification of novel ciliogenesis factors using a new in vivo model for mucociliary epithelial development., Hayes JM., Dev Biol. December 1, 2007; 312 (1): 115-30.                                          

Shisa2 promotes the maturation of somitic precursors and transition to the segmental fate in Xenopus embryos., Nagano T., Development. December 1, 2006; 133 (23): 4643-54.                  

Paraxial protocadherin mediates cell sorting and tissue morphogenesis by regulating C-cadherin adhesion activity., Chen X., J Cell Biol. July 17, 2006; 174 (2): 301-13.                

PCNS: a novel protocadherin required for cranial neural crest migration and somite morphogenesis in Xenopus., Rangarajan J., Dev Biol. July 1, 2006; 295 (1): 206-18.              

The role of Paraxial Protocadherin in Xenopus otic placode development., Hu RY., Biochem Biophys Res Commun. June 23, 2006; 345 (1): 239-47.            

Analysis of Spemann organizer formation in Xenopus embryos by cDNA macroarrays., Wessely O., Dev Biol. May 15, 2004; 269 (2): 552-66.        

The protocadherin PAPC establishes segmental boundaries during somitogenesis in xenopus embryos., Kim SH., Curr Biol. July 13, 2000; 10 (14): 821-30.              

The role of paraxial protocadherin in selective adhesion and cell movements of the mesoderm during Xenopus gastrulation., Kim SH., Development. December 1, 1998; 125 (23): 4681-90.                      

Gene expression screening in Xenopus identifies molecular pathways, predicts gene function and provides a global view of embryonic patterning., Gawantka V., Mech Dev. October 1, 1998; 77 (2): 95-141.                                                            

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