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Summary Anatomy Item Literature (2231) Expression Attributions Wiki
XB-ANAT-3282

Papers associated with posterior hypothalamus (and mix1)

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Genome-wide view of TGFβ/Foxh1 regulation of the early mesendoderm program., Chiu WT., Development. December 1, 2014; 141 (23): 4537-47.                                  

Gtpbp2 is required for BMP signaling and mesoderm patterning in Xenopus embryos., Kirmizitas A., Dev Biol. August 15, 2014; 392 (2): 358-67.                                

The Xenopus Tgfbi is required for embryogenesis through regulation of canonical Wnt signalling., Wang F., Dev Biol. July 1, 2013; 379 (1): 16-27.                            

Conservation and evolutionary divergence in the activity of receptor-regulated smads., Sorrentino GM., Evodevo. October 1, 2012; 3 (1): 22.              

Identification of a novel negative regulator of activin/nodal signaling in mesendodermal formation of Xenopus embryos., Cheong SM., J Biol Chem. June 19, 2009; 284 (25): 17052-60.                        

Oct25 represses transcription of nodal/activin target genes by interaction with signal transducers during Xenopus gastrulation., Cao Y., J Biol Chem. December 5, 2008; 283 (49): 34168-77.                

Mix.1/2-dependent control of FGF availability during gastrulation is essential for pronephros development in Xenopus., Colas A., Dev Biol. August 15, 2008; 320 (2): 351-65.                  

Mouse homologues of Shisa antagonistic to Wnt and Fgf signalings., Furushima K., Dev Biol. June 15, 2007; 306 (2): 480-92.  

Negative regulation of Activin/Nodal signaling by SRF during Xenopus gastrulation., Yun CH., Development. February 1, 2007; 134 (4): 769-77.              

Xenopus glucose transporter 1 (xGLUT1) is required for gastrulation movement in Xenopus laevis., Suzawa K., Int J Dev Biol. January 1, 2007; 51 (3): 183-90.              

Xenopus Dab2 is required for embryonic angiogenesis., Cheong SM., BMC Dev Biol. December 19, 2006; 6 63.                  

A role for GATA factors in Xenopus gastrulation movements., Fletcher G., Mech Dev. October 1, 2006; 123 (10): 730-45.    

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

Germ-layer specification and control of cell growth by Ectodermin, a Smad4 ubiquitin ligase., Dupont S., Cell. April 8, 2005; 121 (1): 87-99.                                  

Selective degradation of excess Ldb1 by Rnf12/RLIM confers proper Ldb1 expression levels and Xlim-1/Ldb1 stoichiometry in Xenopus organizer functions., Hiratani I., Development. September 1, 2003; 130 (17): 4161-75.                    

Effects of heterodimerization and proteolytic processing on Derrière and Nodal activity: implications for mesoderm induction in Xenopus., Eimon PM., Development. July 1, 2002; 129 (13): 3089-103.          

Cloning, expression analysis, and chromosomal localization of murine and human homologues of a Xenopus mix gene., Robb L., Dev Dyn. December 1, 2000; 219 (4): 497-504.

Neuralization of the Xenopus embryo by inhibition of p300/ CREB-binding protein function., Kato Y., J Neurosci. November 1, 1999; 19 (21): 9364-73.          

A novel BMP expressed in developing mouse limb, spinal cord, and tail bud is a potent mesoderm inducer in Xenopus embryos., Gamer LW., Dev Biol. April 1, 1999; 208 (1): 222-32.        

The role of maternal VegT in establishing the primary germ layers in Xenopus embryos., Zhang J., Cell. August 21, 1998; 94 (4): 515-24.                

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