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Summary Anatomy Item Literature (1284) Expression Attributions Wiki
XB-ANAT-89

Papers associated with endoderm (and grn)

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Quantitative analysis of transcriptome dynamics provides novel insights into developmental state transitions., Johnson K., BMC Genomics. October 23, 2022; 23 (1): 723.                                  

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

Etv6 activates vegfa expression through positive and negative transcriptional regulatory networks in Xenopus embryos., Li L., Nat Commun. March 6, 2019; 10 (1): 1083.                                                        

A gene regulatory program controlling early Xenopus mesendoderm formation: Network conservation and motifs., Charney RM., Semin Cell Dev Biol. June 1, 2017; 66 12-24.    

Multicellular Mathematical Modelling of Mesendoderm Formation in Amphibians., Brown LE., Bull Math Biol. March 1, 2016; 78 (3): 436-67.

Gene regulatory networks governing lung specification., Rankin SA, Rankin SA., J Cell Biochem. August 1, 2014; 115 (8): 1343-50.

Two different network topologies yield bistability in models of mesoderm and anterior mesendoderm specification in amphibians., Brown LE., J Theor Biol. July 21, 2014; 353 67-77.                    

VEGFA-dependent and -independent pathways synergise to drive Scl expression and initiate programming of the blood stem cell lineage in Xenopus., Ciau-Uitz A., Development. June 1, 2013; 140 (12): 2632-42.                                                                                                                            

Notch signaling, wt1 and foxc2 are key regulators of the podocyte gene regulatory network in Xenopus., White JT., Development. June 1, 2010; 137 (11): 1863-73.                            

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