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Summary Expression Phenotypes Gene Literature (21) GO Terms (4) Nucleotides (426) Proteins (54) Interactants (311) Wiki

Papers associated with occludin

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2 paper(s) referencing morpholinos

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A synthetic peptide corresponding to the extracellular domain of occludin perturbs the tight junction permeability barrier., Wong V, Gumbiner BM., J Cell Biol. January 27, 1997; 136 (2): 399-409.            

COOH terminus of occludin is required for tight junction barrier function in early Xenopus embryos., Chen Y, Merzdorf C, Paul DL, Goodenough DA., J Cell Biol. August 25, 1997; 138 (4): 891-9.              

Occludin dephosphorylation in early development of Xenopus laevis., Cordenonsi M, Mazzon E, De Rigo L, Baraldo S, Meggio F, Citi S., J Cell Sci. December 1, 1997; 110 ( Pt 24) 3131-9.                

Xenopus laevis occludin. Identification of in vitro phosphorylation sites by protein kinase CK2 and association with cingulin., Cordenonsi M, Turco F, D'atri F, Hammar E, Martinucci G, Meggio F, Citi S., Eur J Biochem. September 1, 1999; 264 (2): 374-84.

Assembly of tight junctions during early vertebrate development., Fleming TP, Papenbrock T, Fesenko I, Hausen P, Sheth B., Semin Cell Dev Biol. August 1, 2000; 11 (4): 291-9.

Tight junction biogenesis in the early Xenopus embryo., Fesenko I, Kurth T, Sheth B, Fleming TP, Citi S, Hausen P., Mech Dev. August 1, 2000; 96 (1): 51-65.

Overexpression of the Xenopus tight-junction protein claudin causes randomization of the left-right body axis., Brizuela BJ, Wessely O, De Robertis EM., Dev Biol. February 15, 2001; 230 (2): 217-29.                

Tight junction proteins., González-Mariscal L, Betanzos A, Nava P, Jaramillo BE., Prog Biophys Mol Biol. January 1, 2003; 81 (1): 1-44.

Oriented cell divisions asymmetrically segregate aPKC and generate cell fate diversity in the early Xenopus embryo., Chalmers AD, Strauss B, Papalopulu N., Development. June 1, 2003; 130 (12): 2657-68.    

Inhibition of the canonical Wnt signaling pathway in cytoplasm: a novel property of the carboxyl terminal domains of two Xenopus ELL genes., Sakurai K, Michiue T, Kikuchi A, Asashima M., Zoolog Sci. April 1, 2004; 21 (4): 407-16.  

aPKC, Crumbs3 and Lgl2 control apicobasal polarity in early vertebrate development., Chalmers AD, Pambos M, Mason J, Lang S, Wylie C, Papalopulu N., Development. March 1, 2005; 132 (5): 977-86.                

The role of FoxC1 in early Xenopus development., Cha JY, Birsoy B, Kofron M, Mahoney E, Lang S, Wylie C, Heasman J., Dev Dyn. October 1, 2007; 236 (10): 2731-41.        

Occludin and hydromineral balance in Xenopus laevis., Chasiotis H, Kelly SP., J Exp Biol. January 1, 2009; 212 (Pt 2): 287-96.

NaCl flux between apical and basolateral side recruits claudin-1 to tight junction strands and regulates paracellular transport., Tokuda S, Miyazaki H, Nakajima K, Yamada T, Marunaka Y., Biochem Biophys Res Commun. March 12, 2010; 393 (3): 390-6.

IGF-1 increases invasive potential of MCF 7 breast cancer cells and induces activation of latent TGF-β1 resulting in epithelial to mesenchymal transition., Walsh LA, Damjanovski S., Cell Commun Signal. January 1, 2011; 9 (1): 10.            

Neural crest specification by noncanonical Wnt signaling and PAR-1., Ossipova O, Sokol SY., Development. December 1, 2011; 138 (24): 5441-50.                        

Diurnal variation of tight junction integrity associates inversely with matrix metalloproteinase expression in Xenopus laevis corneal epithelium: implications for circadian regulation of homeostatic surface cell desquamation., Wiechmann AF, Ceresa BP, Howard EW., PLoS One. January 1, 2014; 9 (11): e113810.                

A noncanonical Frizzled2 pathway regulates epithelial-mesenchymal transition and metastasis., Gujral TS, Chan M, Peshkin L, Sorger PK, Kirschner MW, MacBeath G., Cell. November 6, 2014; 159 (4): 844-56.              

Inhibiting glycogen synthase kinase-3 and transforming growth factor-β signaling to promote epithelial transition of human adipose mesenchymal stem cells., Setiawan M, Tan XW, Goh TW, Hin-Fai Yam G, Mehta JS., Biochem Biophys Res Commun. January 1, 2017; 490 (4): 1381-1388.

Transcriptome profiling reveals male- and female-specific gene expression pattern and novel gene candidates for the control of sex determination and gonad development in Xenopus laevis., Piprek RP, Damulewicz M, Tassan JP, Kloc M, Kubiak JZ., Dev Genes Evol. January 1, 2019; 229 (2-3): 53-72.        

Temporal and Spatial Transcriptomic Dynamics across Brain Development in Xenopus laevis tadpoles., Ta AC, Huang LC, McKeown CR, Bestman JE, Van Keuren-Jensen K, Cline HT., G3 (Bethesda). November 9, 2021;               

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