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Summary Anatomy Item Literature (2591) Expression Attributions Wiki
XB-ANAT-230

Papers associated with foregut (and tgfb1)

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HMCES modulates the transcriptional regulation of nodal/activin and BMP signaling in mESCs., Liang T., Cell Rep. July 12, 2022; 40 (2): 111038.                              

Tbx5 drives Aldh1a2 expression to regulate a RA-Hedgehog-Wnt gene regulatory network coordinating cardiopulmonary development., Rankin SA, Rankin SA., Elife. October 13, 2021; 10


Epilysin (MMP-28)--structure, expression and potential functions., Illman SA., Exp Dermatol. November 1, 2008; 17 (11): 897-907.

Regulation of the Xenopus Xsox17alpha(1) promoter by co-operating VegT and Sox17 sites., Howard L., Dev Biol. October 15, 2007; 310 (2): 402-15.      

Multiple functions of Cerberus cooperate to induce heart downstream of Nodal., Foley AC., Dev Biol. March 1, 2007; 303 (1): 57-65.        

Molecular basis of vertebrate endoderm development., Zorn AM., Int Rev Cytol. January 1, 2007; 259 49-111.

GATA4, 5 and 6 mediate TGFbeta maintenance of endodermal gene expression in Xenopus embryos., Afouda BA., Development. February 1, 2005; 132 (4): 763-74.          

Smad2 and Smad3 coordinately regulate craniofacial and endodermal development., Liu Y., Dev Biol. June 15, 2004; 270 (2): 411-26.  

Expression of human GIPC1 in normal tissues, cancer cell lines, and primary tumors., Kirikoshi H., Int J Mol Med. May 1, 2002; 9 (5): 509-13.

Molecular cloning and characterization of human GIPC3, a novel gene homologous to human GIPC1 and GIPC2., Saitoh T., Int J Oncol. March 1, 2002; 20 (3): 577-82.

Molecular cloning and characterization of human GIPC2, a novel gene homologous to human GIPC1 and Xenopus Kermit., Kirikoshi H., Int J Oncol. March 1, 2002; 20 (3): 571-6.

Regulation of gut and heart left-right asymmetry by context-dependent interactions between xenopus lefty and BMP4 signaling., Branford WW., Dev Biol. July 15, 2000; 223 (2): 291-306.              

Isolation and characterization of bone morphogenetic protein-binding proteins from the early Xenopus embryo., Iemura S., J Biol Chem. September 17, 1999; 274 (38): 26843-9.

Anterior endomesoderm specification in Xenopus by Wnt/beta-catenin and TGF-beta signalling pathways., Zorn AM., Dev Biol. May 15, 1999; 209 (2): 282-97.                    

Xenopus eHAND: a marker for the developing cardiovascular system of the embryo that is regulated by bone morphogenetic proteins., Sparrow DB., Mech Dev. February 1, 1998; 71 (1-2): 151-63.            

TGF-beta receptor-mediated signalling through Smad2, Smad3 and Smad4., Nakao A., EMBO J. September 1, 1997; 16 (17): 5353-62.

Transforming growth factor beta (TGF beta) is produced by and influences the proliferative response of Xenopus laevis lymphocytes., Haynes L., Dev Immunol. January 1, 1993; 3 (3): 223-30.

Isolation and characterization of TGF-beta 2 and TGF-beta 5 from medium conditioned by Xenopus XTC cells., Roberts AB., Growth Factors. January 1, 1990; 2 (2-3): 135-47.

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