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Summary Anatomy Item Literature (927) Expression Attributions Wiki
XB-ANAT-279

Papers associated with vegetal yolk mass (and acta4)

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Identification of new regulators of embryonic patterning and morphogenesis in Xenopus gastrulae by RNA sequencing., Popov IK., Dev Biol. June 15, 2017; 426 (2): 429-441.                    

PACSIN2 regulates cell adhesion during gastrulation in Xenopus laevis., Cousin H., Dev Biol. July 1, 2008; 319 (1): 86-99.                                

FoxD3 regulation of Nodal in the Spemann organizer is essential for Xenopus dorsal mesoderm development., Steiner AB., Development. December 1, 2006; 133 (24): 4827-38.                    

Neural crest induction by paraxial mesoderm in Xenopus embryos requires FGF signals., Monsoro-Burq AH., Development. July 1, 2003; 130 (14): 3111-24.                

The FGFR pathway is required for the trunk-inducing functions of Spemann's organizer., Mitchell TS., Dev Biol. September 15, 2001; 237 (2): 295-305.        

FGF signaling restricts the primary blood islands to ventral mesoderm., Kumano G., Dev Biol. December 15, 2000; 228 (2): 304-14.            

Ras-mediated FGF signaling is required for the formation of posterior but not anterior neural tissue in Xenopus laevis., Ribisi S., Dev Biol. November 1, 2000; 227 (1): 183-96.            

Wnt signaling in Xenopus embryos inhibits bmp4 expression and activates neural development., Baker JC., Genes Dev. December 1, 1999; 13 (23): 3149-59.              

Xenopus nodal-related signaling is essential for mesendodermal patterning during early embryogenesis., Osada SI., Development. June 1, 1999; 126 (14): 3229-40.                

FGF is required for posterior neural patterning but not for neural induction., Holowacz T., Dev Biol. January 15, 1999; 205 (2): 296-308.                

Anterior specification of embryonic ectoderm: the role of the Xenopus cement gland-specific gene XAG-2., Aberger F., Mech Dev. March 1, 1998; 72 (1-2): 115-30.              

Mesoderm induction by heterodimeric AP-1 (c-Jun and c-Fos) and its involvement in mesoderm formation through the embryonic fibroblast growth factor/Xbra autocatalytic loop during the early development of Xenopus embryos., Kim J., J Biol Chem. January 16, 1998; 273 (3): 1542-50.              

Wnt and FGF pathways cooperatively pattern anteroposterior neural ectoderm in Xenopus., McGrew LL., Mech Dev. December 1, 1997; 69 (1-2): 105-14.          

Xenopus hindbrain patterning requires retinoid signaling., Kolm PJ., Dev Biol. December 1, 1997; 192 (1): 1-16.              

Sizzled: a secreted Xwnt8 antagonist expressed in the ventral marginal zone of Xenopus embryos., Salic AN., Development. December 1, 1997; 124 (23): 4739-48.              

A vegetally localized T-box transcription factor in Xenopus eggs specifies mesoderm and endoderm and is essential for embryonic mesoderm formation., Horb ME., Development. May 1, 1997; 124 (9): 1689-98.                    

A truncated FGF receptor blocks neural induction by endogenous Xenopus inducers., Launay C., Development. March 1, 1996; 122 (3): 869-80.                

Anti-dorsalizing morphogenetic protein is a novel TGF-beta homolog expressed in the Spemann organizer., Moos M., Development. December 1, 1995; 121 (12): 4293-301.                  

Localized BMP-4 mediates dorsal/ventral patterning in the early Xenopus embryo., Schmidt JE., Dev Biol. May 1, 1995; 169 (1): 37-50.              

The SH2-containing protein-tyrosine phosphatase SH-PTP2 is required upstream of MAP kinase for early Xenopus development., Tang TL., Cell. February 10, 1995; 80 (3): 473-83.              

Effect of an inhibitory mutant of the FGF receptor on mesoderm-derived alpha-smooth muscle actin-expressing cells in Xenopus embryo., Saint-Jeannet JP., Dev Biol. August 1, 1994; 164 (2): 374-82.          

Competence prepattern in the animal hemisphere of the 8-cell-stage Xenopus embryo., Kinoshita K., Dev Biol. November 1, 1993; 160 (1): 276-84.        

Localization of specific mRNAs in Xenopus embryos by whole-mount in situ hybridization., Hemmati-Brivanlou A., Development. October 1, 1990; 110 (2): 325-30.  

[Movements of cellular material of the dorsal wall in clawed-toad embryos during gastrulation and neurulation]., Petrov KV., Ontogenez. January 1, 1986; 17 (1): 78-83.

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