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Summary Anatomy Item Literature (5836) Expression Attributions Wiki
XB-ANAT-2

Papers associated with ectoderm∨derBy=4 (and gjb1)

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Understanding the Role of ATP Release through Connexins Hemichannels during Neurulation., Tovar LM., Int J Mol Sci. January 21, 2023; 24 (3):                     

Sox17 and β-catenin co-occupy Wnt-responsive enhancers to govern the endoderm gene regulatory network., Mukherjee S., Elife. September 7, 2020; 9                           

Connexin26-mediated transfer of laterality cues in Xenopus., Beyer T., Biol Open. May 15, 2012; 1 (5): 473-81.            

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.              

Zebrafish cx30.3: identification and characterization of a gap junction gene highly expressed in the skin., Tao L., Dev Dyn. October 1, 2010; 239 (10): 2627-36.

Global analysis of the transcriptional network controlling Xenopus endoderm formation., Sinner D., Development. May 1, 2006; 133 (10): 1955-66.              

XEpac, a guanine nucleotide-exchange factor for Rap GTPase, is a novel hatching gland specific marker during the Xenopus embryogenesis., Lee SJ., Dev Dyn. April 1, 2005; 232 (4): 1091-7.      

Connexin30 mutations responsible for hidrotic ectodermal dysplasia cause abnormal hemichannel activity., Essenfelder GM., Hum Mol Genet. August 15, 2004; 13 (16): 1703-14.

Single-channel SCAM identifies pore-lining residues in the first extracellular loop and first transmembrane domains of Cx46 hemichannels., Kronengold J., J Gen Physiol. October 1, 2003; 122 (4): 389-405.                    

Multiple connexins contribute to intercellular communication in the Xenopus embryo., Landesman Y., J Cell Sci. January 1, 2003; 116 (Pt 1): 29-38.    

K(ATP) channel activity is required for hatching in Xenopus embryos., Cheng SM., Dev Dyn. December 1, 2002; 225 (4): 588-91.        

Identification of amino acid residues lining the pore of a gap junction channel., Skerrett IM., J Cell Biol. October 28, 2002; 159 (2): 349-60.                    

Expression of connexin 30 in Xenopus embryos and its involvement in hatching gland function., Levin M., Dev Dyn. September 1, 2000; 219 (1): 96-101.        

A chimeric connexin forming gap junction hemichannels., Pfahnl A., Pflugers Arch. April 1, 1997; 433 (6): 773-9.

Molecular cloning and functional expression of mouse connexin-30,a gap junction gene highly expressed in adult brain and skin., Dahl E., J Biol Chem. July 26, 1996; 271 (30): 17903-10.

Heteromeric connexons in lens gap junction channels., Jiang JX., Proc Natl Acad Sci U S A. February 6, 1996; 93 (3): 1287-91.

Two gap junction genes, connexin 31.1 and 30.3, are closely linked on mouse chromosome 4 and preferentially expressed in skin., Hennemann H., J Biol Chem. August 25, 1992; 267 (24): 17225-33.

Molecular cloning and functional expression of mouse connexin40, a second gap junction gene preferentially expressed in lung., Hennemann H., J Cell Biol. June 1, 1992; 117 (6): 1299-310.

Connexin46, a novel lens gap junction protein, induces voltage-gated currents in nonjunctional plasma membrane of Xenopus oocytes., Paul DL., J Cell Biol. November 1, 1991; 115 (4): 1077-89.

Molecular cloning and characterization of a new member of the gap junction gene family, connexin-31., Hoh JH., J Biol Chem. April 5, 1991; 266 (10): 6524-31.

Formation of gap junctions by expression of connexins in Xenopus oocyte pairs., Swenson KI., Cell. April 7, 1989; 57 (1): 145-55.

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