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Summary Anatomy Item Literature (1250) Expression Attributions Wiki
XB-ANAT-720

Papers associated with proximal (and tuba4b)

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Xenopus epidermal and endodermal epithelia as models for mucociliary epithelial evolution, disease, and metaplasia., Walentek P., Genesis. February 1, 2021; 59 (1-2): e23406.          

Otic Neurogenesis in Xenopus laevis: Proliferation, Differentiation, and the Role of Eya1., Almasoudi SH., Front Neuroanat. January 1, 2021; 15 722374.                                                    

Septin-dependent remodeling of cortical microtubule drives cell reshaping during epithelial wound healing., Shindo A., J Cell Sci. June 28, 2018; 131 (12):


Hyperinnervation improves Xenopus laevis limb regeneration., Mitogawa K., Dev Biol. January 15, 2018; 433 (2): 276-286.                    

Rfx2 Stabilizes Foxj1 Binding at Chromatin Loops to Enable Multiciliated Cell Gene Expression., Quigley IK., PLoS Genet. January 19, 2017; 13 (1): e1006538.            

ATP4 and ciliation in the neuroectoderm and endoderm of Xenopus embryos and tadpoles., Walentek P., Data Brief. April 20, 2015; 4 22-31.            

Transcriptional regulators in the Hippo signaling pathway control organ growth in Xenopus tadpole tail regeneration., Hayashi S., Dev Biol. December 1, 2014; 396 (1): 31-41.                      

Localization of Kv2.2 protein in Xenopus laevis embryos and tadpoles., Gravagna NG., J Comp Neurol. October 10, 2008; 510 (5): 508-24.                        

Xenopus Bicaudal-C is required for the differentiation of the amphibian pronephros., Tran U., Dev Biol. July 1, 2007; 307 (1): 152-64.                  

Xenopus TRPN1 (NOMPC) localizes to microtubule-based cilia in epithelial cells, including inner-ear hair cells., Shin JB., Proc Natl Acad Sci U S A. August 30, 2005; 102 (35): 12572-7.              

Neurotrophin receptors and enteric neuronal development during metamorphosis in the amphibian Xenopus laevis., Sundqvist M., Cell Tissue Res. April 1, 2004; 316 (1): 45-54.

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