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Summary Anatomy Item Literature (5837) Expression Attributions Wiki
XB-ANAT-2

Papers associated with ectoderm (and foxa2)

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Engagement of Foxh1 in chromatin regulation revealed by protein interactome analyses., Zhou JJ., Dev Growth Differ. August 1, 2022; 64 (6): 297-305.      

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

Xbp1 and Brachyury establish an evolutionarily conserved subcircuit of the notochord gene regulatory network., Wu Y., Elife. January 20, 2022; 11                             

X-box-binding protein 1 is required for pancreatic development in Xenopus laevis., Yang J., Acta Biochim Biophys Sin (Shanghai). December 11, 2020; 52 (11): 1215-1226.                  

TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M., Elife. September 14, 2020; 9                                                                                           

Maternal Gdf3 is an obligatory cofactor in Nodal signaling for embryonic axis formation in zebrafish., Bisgrove BW., Elife. November 15, 2017; 6                 

At new heights - endodermal lineages in development and disease., Ober EA., Development. June 1, 2015; 142 (11): 1912-1917.  

E2a is necessary for Smad2/3-dependent transcription and the direct repression of lefty during gastrulation., Wills AE., Dev Cell. February 9, 2015; 32 (3): 345-57.                  

A Molecular atlas of Xenopus respiratory system development., Rankin SA, Rankin SA., Dev Dyn. January 1, 2015; 244 (1): 69-85.                    

Inference of the Xenopus tropicalis embryonic regulatory network and spatial gene expression patterns., Zheng Z., BMC Syst Biol. January 8, 2014; 8 3.                  

FoxA4 favours notochord formation by inhibiting contiguous mesodermal fates and restricts anterior neural development in Xenopus embryos., Murgan S., PLoS One. January 1, 2014; 9 (10): e110559.                              

TBX3 Directs Cell-Fate Decision toward Mesendoderm., Weidgang CE., Stem Cell Reports. August 29, 2013; 1 (3): 248-65.                

The cytoskeletal protein Zyxin inhibits Shh signaling during the CNS patterning in Xenopus laevis through interaction with the transcription factor Gli1., Martynova NY., Dev Biol. August 1, 2013; 380 (1): 37-48.                      

Genomic targets of Brachyury (T) in differentiating mouse embryonic stem cells., Evans AL., PLoS One. January 1, 2012; 7 (3): e33346.              

Functional analysis of Rfx6 and mutant variants associated with neonatal diabetes., Pearl EJ., Dev Biol. March 1, 2011; 351 (1): 135-45.                    

Retinoic acid is a key regulatory switch determining the difference between lung and thyroid fates in Xenopus laevis., Wang JH., BMC Dev Biol. January 26, 2011; 11 75.                            

MID1 and MID2 are required for Xenopus neural tube closure through the regulation of microtubule organization., Suzuki M., Development. July 1, 2010; 137 (14): 2329-39.                                                      

Evolutionary origin of the Otx2 enhancer for its expression in visceral endoderm., Kurokawa D., Dev Biol. June 1, 2010; 342 (1): 110-20.                

Sfrp5 coordinates foregut specification and morphogenesis by antagonizing both canonical and noncanonical Wnt11 signaling., Li Y., Genes Dev. November 1, 2008; 22 (21): 3050-63.                        

Upstream stimulatory factors, USF1 and USF2 are differentially expressed during Xenopus embryonic development., Fujimi TJ., Gene Expr Patterns. July 1, 2008; 8 (6): 376-381.                          

The Gata5 target, TGIF2, defines the pancreatic region by modulating BMP signals within the endoderm., Spagnoli FM., Development. February 1, 2008; 135 (3): 451-61.                                                    

Evolution of axis specification mechanisms in jawed vertebrates: insights from a chondrichthyan., Coolen M., PLoS One. April 18, 2007; 2 (4): e374.              

PP2A:B56epsilon is required for eye induction and eye field separation., Rorick AM., Dev Biol. February 15, 2007; 302 (2): 477-93.                  

Negative regulation of Hedgehog signaling by the cholesterogenic enzyme 7-dehydrocholesterol reductase., Koide T., Development. June 1, 2006; 133 (12): 2395-405.                

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

The Vg1-related protein Gdf3 acts in a Nodal signaling pathway in the pre-gastrulation mouse embryo., Chen C., Development. January 1, 2006; 133 (2): 319-29.              

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

Of Fox and Frogs: Fox (fork head/winged helix) transcription factors in Xenopus development., Pohl BS., Gene. January 3, 2005; 344 21-32.      

Sox17 and beta-catenin cooperate to regulate the transcription of endodermal genes., Sinner D., Development. July 1, 2004; 131 (13): 3069-80.                      

Analysis of Spemann organizer formation in Xenopus embryos by cDNA macroarrays., Wessely O., Dev Biol. May 15, 2004; 269 (2): 552-66.        

Notch signaling can regulate endoderm formation in zebrafish., Kikuchi Y., Dev Dyn. April 1, 2004; 229 (4): 756-62.

Inhibition of mesodermal fate by Xenopus HNF3beta/FoxA2., Suri C., Dev Biol. January 1, 2004; 265 (1): 90-104.              

Dual origin of the floor plate in the avian embryo., Charrier JB., Development. October 1, 2002; 129 (20): 4785-96.          

Gene expression in the embryonic Xenopus liver., Zorn AM., Mech Dev. May 1, 2001; 103 (1-2): 153-7.                                                  

foxD5a, a Xenopus winged helix gene, maintains an immature neural ectoderm via transcriptional repression that is dependent on the C-terminal domain., Sullivan SA., Dev Biol. April 15, 2001; 232 (2): 439-57.            

Gli2 functions in FGF signaling during antero-posterior patterning., Brewster R., Development. October 1, 2000; 127 (20): 4395-405.            

Regulation of Gli2 and Gli3 activities by an amino-terminal repression domain: implication of Gli2 and Gli3 as primary mediators of Shh signaling., Sasaki H., Development. September 1, 1999; 126 (17): 3915-24.

Rearranging gastrulation in the name of yolk: evolution of gastrulation in yolk-rich amniote eggs., Arendt D., Mech Dev. March 1, 1999; 81 (1-2): 3-22.

Gli1 is a target of Sonic hedgehog that induces ventral neural tube development., Lee J., Development. July 1, 1997; 124 (13): 2537-52.                  

Ectodermal patterning in vertebrate embryos., Sasai Y., Dev Biol. February 1, 1997; 182 (1): 5-20.              

A fork head related multigene family is transcribed in Xenopus laevis embryos., Lef J., Int J Dev Biol. February 1, 1996; 40 (1): 245-53.  

Restrictions to floor plate induction by hedgehog and winged-helix genes in the neural tube of frog embryos., Ruiz i Altaba A., Mol Cell Neurosci. April 1, 1995; 6 (2): 106-21.

Activin induces the expression of the Xenopus homologue of sonic hedgehog during mesoderm formation in Xenopus explants., Yokotal C., Biochem Biophys Res Commun. February 6, 1995; 207 (1): 1-7.      

Floor plate and motor neuron induction by vhh-1, a vertebrate homolog of hedgehog expressed by the notochord., Roelink H., Cell. February 25, 1994; 76 (4): 761-75.  

Sequential expression of HNF-3 beta and HNF-3 alpha by embryonic organizing centers: the dorsal lip/node, notochord and floor plate., Ruiz i Altaba A., Mech Dev. December 1, 1993; 44 (2-3): 91-108.                

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