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Summary Anatomy Item Literature (5838) Expression Attributions Wiki
XB-ANAT-2

Papers associated with ectoderm

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Neural tube closure in Xenopus laevis involves medial migration, directed protrusive activity, cell intercalation and convergent extension., Davidson LA., Development. October 1, 1999; 126 (20): 4547-56.              

The homeobox gene, Xanf-1, can control both neural differentiation and patterning in the presumptive anterior neurectoderm of the Xenopus laevis embryo., Ermakova GV., Development. October 1, 1999; 126 (20): 4513-23.                  

Synergism between Pax-8 and lim-1 in embryonic kidney development., Carroll TJ., Dev Biol. October 1, 1999; 214 (1): 46-59.        

Functional association of retinoic acid and hedgehog signaling in Xenopus primary neurogenesis., Franco PG., Development. October 1, 1999; 126 (19): 4257-65.          

Pax6 induces ectopic eyes in a vertebrate., Chow RL., Development. October 1, 1999; 126 (19): 4213-22.              

Bix4 is activated directly by VegT and mediates endoderm formation in Xenopus development., Casey ES., Development. October 1, 1999; 126 (19): 4193-200.              

Molecular cloning of a novel Xenopus spalt gene (Xsal-3)., Onuma Y., Biochem Biophys Res Commun. October 14, 1999; 264 (1): 151-6.        

The early expression control of Xepsin by nonaxial and planar posteriorizing signals in Xenopus epidermis., Yamada K., Dev Biol. October 15, 1999; 214 (2): 318-30.              

A gene trap approach in Xenopus., Bronchain OJ., Curr Biol. October 21, 1999; 9 (20): 1195-8.        

Neuregulin induces the expression of mesodermal genes in the ectoderm of Xenopus laevis., Chung HG., Mol Cells. October 31, 1999; 9 (5): 497-503.

Pax-6 and Prox 1 expression during lens regeneration from Cynops iris and Xenopus cornea: evidence for a genetic program common to embryonic lens development., Mizuno N., Differentiation. November 1, 1999; 65 (3): 141-9.          

The role of Xmsx-2 in the anterior-posterior patterning of the mesoderm in Xenopus laevis., Gong SG., Differentiation. November 1, 1999; 65 (3): 131-40.            

Allosteric activation mechanism of the alpha 1 beta 2 gamma 2 gamma-aminobutyric acid type A receptor revealed by mutation of the conserved M2 leucine., Chang Y., Biophys J. November 1, 1999; 77 (5): 2542-51.

Xpitx-1: a homeobox gene expressed during pituitary and cement gland formation of Xenopus embryos., Hollemann T., Mech Dev. November 1, 1999; 88 (2): 249-52.  

Gut specific expression using mammalian promoters in transgenic Xenopus laevis., Beck CW., Mech Dev. November 1, 1999; 88 (2): 221-7.              

Properties of the mutant Ser-460-Cys implicate this site in a functionally important region of the type IIa Na(+)/P(i) cotransporter protein., Lambert G., J Gen Physiol. November 1, 1999; 114 (5): 637-52.                    

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 fork head gene mediates early steps during Xenopus lens formation., Kenyon KL., Development. November 1, 1999; 126 (22): 5107-16.            

Mode of action of VegT in mesoderm and endoderm formation., Clements D., Development. November 1, 1999; 126 (21): 4903-11.

A two-step mechanism generates the spacing pattern of the ciliated cells in the skin of Xenopus embryos., Deblandre GA., Development. November 1, 1999; 126 (21): 4715-28.                  

Role of disulfide bonds in the structure and potassium channel blocking activity of ShK toxin., Pennington MW., Biochemistry. November 2, 1999; 38 (44): 14549-58.

Rapid gating and anion permeability of an intracellular aquaporin., Yasui M., Nature. November 11, 1999; 402 (6758): 184-7.

Genomic organization, expression, and chromosome location of the human SNAIL gene (SNAI1) and a related processed pseudogene (SNAI1P)., Paznekas WA., Genomics. November 15, 1999; 62 (1): 42-9.

Novel structural elements identified during tail resorption in Xenopus laevis metamorphosis: lessons from tailed frogs., Elinson RP., Dev Biol. November 15, 1999; 215 (2): 243-52.                

Developmental basis of pronephric defects in Xenopus body plan phenotypes., Seufert DW., Dev Biol. November 15, 1999; 215 (2): 233-42.          

Functional conservation of the wingless-engrailed interaction as shown by a widely applicable baculovirus misexpression system., Oppenheimer DI., Curr Biol. November 18, 1999; 9 (22): 1288-96.  

Construction of a confocal microscope for real-time x-y and x-z imaging., Callamaras N., Cell Calcium. December 1, 1999; 26 (6): 271-9.

Synthesis of beta-substituted naphth-1-yl ethylamido derivatives as new melatoninergic agonists., Mathé-Allainmat M., Bioorg Med Chem. December 1, 1999; 7 (12): 2945-52.

Expression of helix-loop-helix type negative regulators of differentiation during limb regeneration in urodeles and anurans., Shimizu-Nishikawa K., Dev Growth Differ. December 1, 1999; 41 (6): 731-43.      

Xl erg: expression pattern and overexpression during development plead for a role in endothelial cell differentiation., Baltzinger M., Dev Dyn. December 1, 1999; 216 (4-5): 420-33.

Comparative analysis of embryonic gene expression defines potential interaction sites for Xenopus EphB4 receptors with ephrin-B ligands., Helbling PM., Dev Dyn. December 1, 1999; 216 (4-5): 361-73.      

Signaling mechanisms in pituitary morphogenesis and cell fate determination., Dasen JS., Curr Opin Cell Biol. December 1, 1999; 11 (6): 669-77.

Induction and differentiation of the neural crest., García-Castro M., Curr Opin Cell Biol. December 1, 1999; 11 (6): 695-8.

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

Vax1, a novel homeobox-containing gene, directs development of the basal forebrain and visual system., Hallonet M., Genes Dev. December 1, 1999; 13 (23): 3106-14.    

Nuclear accumulation of S-adenosylhomocysteine hydrolase in transcriptionally active cells during development of Xenopus laevis., Radomski N., Mol Biol Cell. December 1, 1999; 10 (12): 4283-98.                  

Fluorescent photoreceptors of transgenic Xenopus laevis imaged in vivo by two microscopy techniques., Moritz OL., Invest Ophthalmol Vis Sci. December 1, 1999; 40 (13): 3276-80.

Muscarinic receptor heterogeneity in follicle-enclosed Xenopus oocytes., Arellano RO., J Physiol. December 1, 1999; 521 Pt 2 409-19.

The specification and growth factor inducibility of the pronephric glomus in Xenopus laevis., Brennan HC., Development. December 1, 1999; 126 (24): 5847-56.        

FAST-1 is a key maternal effector of mesoderm inducers in the early Xenopus embryo., Watanabe M., Development. December 1, 1999; 126 (24): 5621-34.

Selectivity of the polyspecific cation transporter rOCT1 is changed by mutation of aspartate 475 to glutamate., Gorboulev V., Mol Pharmacol. December 1, 1999; 56 (6): 1254-61.

Use-dependent 'agonist' effect of azimilide on the HERG channel., Jiang M., J Pharmacol Exp Ther. December 1, 1999; 291 (3): 1324-36.

Expression of the Lewis group carbohydrate antigens during Xenopus development., Yoshida-Noro C., Glycobiology. December 1, 1999; 9 (12): 1323-30.

Expression of Frzb-1 during chick development., Duprez D., Mech Dev. December 1, 1999; 89 (1-2): 179-83.

Characterization of a subfamily of related winged helix genes, XFD-12/12'/12" (XFLIP), during Xenopus embryogenesis., Sölter M., Mech Dev. December 1, 1999; 89 (1-2): 161-5.                  

The POU domain gene, XlPOU 2 is an essential downstream determinant of neural induction., Matsuo-Takasaki M., Mech Dev. December 1, 1999; 89 (1-2): 75-85.      

Involvement of the small GTPases XRhoA and XRnd1 in cell adhesion and head formation in early Xenopus development., Wünnenberg-Stapleton K., Development. December 1, 1999; 126 (23): 5339-51.    

Spatial and temporal properties of ventral blood island induction in Xenopus laevis., Kumano G., Development. December 1, 1999; 126 (23): 5327-37.                

Germ-line transmission of transgenes in Xenopus laevis., Marsh-Armstrong N., Proc Natl Acad Sci U S A. December 7, 1999; 96 (25): 14389-93.        

Transmembrane helix 5 is critical for the high water permeability of aquaporin., Kuwahara M., Biochemistry. December 7, 1999; 38 (49): 16340-6.

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