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Summary Anatomy Item Literature (5836) Expression Attributions Wiki
XB-ANAT-2

Papers associated with ectoderm∨derBy=4 (and klf6)

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Competence for neural crest induction is controlled by hydrostatic pressure through Yap., Alasaadi DN., Nat Cell Biol. March 18, 2024;                                     

Glycogen synthase kinase 3 controls migration of the neural crest lineage in mouse and Xenopus., Gonzalez Malagon SG., Nat Commun. March 19, 2018; 9 (1): 1126.                  

Intracellular calcium signal at the leading edge regulates mesodermal sheet migration during Xenopus gastrulation., Hayashi K., Sci Rep. February 5, 2018; 8 (1): 2433.              

Mechanical strain determines the axis of planar polarity in ciliated epithelia., Chien YH., Curr Biol. November 2, 2015; 25 (21): 2774-2784.              

Sebox regulates mesoderm formation in early amphibian embryos., Chen G., Dev Dyn. November 1, 2015; 244 (11): 1415-26.              

Kruppel-like factor family genes are expressed during Xenopus embryogenesis and involved in germ layer formation and body axis patterning., Gao Y., Dev Dyn. October 1, 2015; 244 (10): 1328-46.                                    

NEDD4L regulates convergent extension movements in Xenopus embryos via Disheveled-mediated non-canonical Wnt signaling., Zhang Y., Dev Biol. August 1, 2014; 392 (1): 15-25.                              

The distribution of Dishevelled in convergently extending mesoderm., Panousopoulou E., Dev Biol. October 15, 2013; 382 (2): 496-503.            

Par6b regulates the dynamics of apicobasal polarity during development of the stratified Xenopus epidermis., Wang S., PLoS One. October 8, 2013; 8 (10): e76854.                      

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.                            

foxD5 plays a critical upstream role in regulating neural ectodermal fate and the onset of neural differentiation., Yan B., Dev Biol. May 1, 2009; 329 (1): 80-95.              

Pituitary adenylate cyclase-activating polypeptide regulates brain-derived neurotrophic factor exon IV expression through the VPAC1 receptor in the amphibian melanotrope cell., Kidane AH., Endocrinology. August 1, 2008; 149 (8): 4177-82.

Expression patterns of chick Musashi-1 in the developing nervous system., Wilson JM., Gene Expr Patterns. August 1, 2007; 7 (7): 817-25.            

Embryonic expression of pituitary adenylyl cyclase-activating polypeptide and its selective type I receptor gene in the frog Xenopus laevis neural tube., Hu Z., J Comp Neurol. December 17, 2001; 441 (3): 266-75.                  

Gene expression screening in Xenopus identifies molecular pathways, predicts gene function and provides a global view of embryonic patterning., Gawantka V., Mech Dev. October 1, 1998; 77 (2): 95-141.                                                            

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