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Effect of wnt-1 and related proteins on gap junctional communication in Xenopus embryos. , Olson DJ, Christian JL , Moon RT ., Science. May 24, 1991; 252 (5009): 1173-6.
Dissecting Wnt signalling pathways and Wnt-sensitive developmental processes through transient misexpression analyses in embryos of Xenopus laevis. , Moon RT , Christian JL , Campbell RM, McGrew LL, DeMarais AA, Torres M, Lai CJ, Olson DJ, Kelly GM., Dev Suppl. January 1, 1992; 85-94.
In pursuit of the functions of the Wnt family of developmental regulators: insights from Xenopus laevis. , Moon RT ., Bioessays. February 1, 1993; 15 (2): 91-7.
Xwnt-5A: a maternal Wnt that affects morphogenetic movements after overexpression in embryos of Xenopus laevis. , Moon RT , Campbell RM, Christian JL , McGrew LL, Shih J, Fraser S., Development. September 1, 1993; 119 (1): 97-111.
Wnt5a cloning, expression, and up-regulation in human primary breast cancers. , Lejeune S, Huguet EL, Hamby A, Poulsom R, Harris AL., Clin Cancer Res. February 1, 1995; 1 (2): 215-22.
Identification of distinct classes and functional domains of Wnts through expression of wild-type and chimeric proteins in Xenopus embryos. , Du SJ, Purcell SM, Christian JL , McGrew LL, Moon RT ., Mol Cell Biol. May 1, 1995; 15 (5): 2625-34.
Analysis of Wnt/Engrailed signaling in Xenopus embryos using biolistics. , Koster JG, Eizema K, Peterson-Maduro LJ, Stegeman BI, Destrée OH ., Dev Biol. January 10, 1996; 173 (1): 348-52.
Activities of the Wnt-1 class of secreted signaling factors are antagonized by the Wnt-5A class and by a dominant negative cadherin in early Xenopus development. , Torres MA, Yang-Snyder JA, Purcell SM, DeMarais AA, McGrew LL, Moon RT ., J Cell Biol. June 1, 1996; 133 (5): 1123-37.
A member of the Frizzled protein family mediating axis induction by Wnt-5A. , He X , Saint-Jeannet JP , Wang Y, Nathans J, Dawid I , Varmus H., Science. March 14, 1997; 275 (5306): 1652-4.
Expression of Wnt5a is downregulated by extracellular matrix and mutated c-Ha-ras in the human mammary epithelial cell line MCF-10A. , Bui TD, Tortora G, Ciardiello F, Harris AL., Biochem Biophys Res Commun. October 29, 1997; 239 (3): 911-7.
Frizzled-8 is expressed in the Spemann organizer and plays a role in early morphogenesis. , Deardorff MA, Tan C, Conrad LJ, Klein PS ., Development. July 1, 1998; 125 (14): 2687-700.
Keeping a close eye on Wnt-1/wg signaling in Xenopus. , Gradl D , Kühl M , Wedlich D ., Mech Dev. August 1, 1999; 86 (1-2): 3-15.
Evolutionary relationships between the amphibian, avian, and mammalian stomachs. , Smith DM, Grasty RC, Theodosiou NA, Tabin CJ, Nascone-Yoder NM ., Evol Dev. January 1, 2000; 2 (6): 348-59.
Ca(2+)/calmodulin-dependent protein kinase II is stimulated by Wnt and Frizzled homologs and promotes ventral cell fates in Xenopus. , Kühl M , Sheldahl LC, Malbon CC, Moon RT ., J Biol Chem. April 28, 2000; 275 (17): 12701-11.
The putative wnt receptor Xenopus frizzled-7 functions upstream of beta-catenin in vertebrate dorsoventral mesoderm patterning. , Sumanas S, Strege P, Heasman J , Ekker SC ., Development. May 1, 2000; 127 (9): 1981-90.
The maternal Xenopus beta-catenin signaling pathway, activated by frizzled homologs, induces goosecoid in a cell non-autonomous manner. , Brown JD, Hallagan SE, McGrew LL, Miller JR , Moon RT ., Dev Growth Differ. August 1, 2000; 42 (4): 347-57.
Mutual antagonism between dickkopf1 and dickkopf2 regulates Wnt/beta-catenin signalling. , Wu W, Glinka A , Delius H, Niehrs C ., Curr Biol. December 1, 2000; 10 (24): 1611-4.
Functional analysis of the Xenopus frizzled 7 protein domains using chimeric receptors. , Swain RK, Medina A, Steinbeisser H ., Int J Dev Biol. January 1, 2001; 45 (1): 259-64.
Regulation of convergent extension in Xenopus by Wnt5a and Frizzled-8 is independent of the canonical Wnt pathway. , Wallingford JB , Vogeli KM, Harland RM ., Int J Dev Biol. January 1, 2001; 45 (1): 225-7.
Mouse Wnt receptor gene Fzd5 is essential for yolk sac and placental angiogenesis. , Ishikawa T, Tamai Y, Zorn AM , Yoshida H, Seldin MF, Nishikawa S, Taketo MM., Development. January 1, 2001; 128 (1): 25-33.
Wnt antagonism initiates cardiogenesis in Xenopus laevis. , Schneider VA, Mercola M ., Genes Dev. February 1, 2001; 15 (3): 304-15.
JNK functions in the non-canonical Wnt pathway to regulate convergent extension movements in vertebrates. , Yamanaka H , Moriguchi T, Masuyama N, Kusakabe M , Hanafusa H , Takada R, Takada S, Nishida E ., EMBO Rep. January 1, 2002; 3 (1): 69-75.
Frizzled receptors activate a novel JNK-dependent pathway that may lead to apoptosis. , Lisovsky M, Itoh K, Sokol SY ., Curr Biol. January 8, 2002; 12 (1): 53-8.
Non-canonical Wnt signalling and regulation of gastrulation movements. , Tada M , Concha ML, Heisenberg CP ., Semin Cell Dev Biol. June 1, 2002; 13 (3): 251-60.
A novel set of Wnt-Frizzled fusion proteins identifies receptor components that activate beta -catenin-dependent signaling. , Holmen SL, Salic A, Zylstra CR, Kirschner MW , Williams BO., J Biol Chem. September 20, 2002; 277 (38): 34727-35.
Role of glypican 4 in the regulation of convergent extension movements during gastrulation in Xenopus laevis. , Ohkawara B, Yamamoto TS , Tada M , Ueno N ., Development. May 1, 2003; 130 (10): 2129-38.
Dishevelled activates Ca2+ flux, PKC, and CamKII in vertebrate embryos. , Sheldahl LC, Slusarski DC, Pandur P , Miller JR , Kühl M , Moon RT ., J Cell Biol. May 26, 2003; 161 (4): 769-77.
The receptor tyrosine kinase Ror2 is involved in non-canonical Wnt5a/ JNK signalling pathway. , Oishi I, Suzuki H, Onishi N, Takada R, Kani S, Ohkawara B, Koshida I, Suzuki K, Yamada G, Schwabe GC, Mundlos S, Shibuya H , Takada S, Minami Y., Genes Cells. July 1, 2003; 8 (7): 645-54.
Regulation of Msx genes by a Bmp gradient is essential for neural crest specification. , Tribulo C , Aybar MJ , Nguyen VH, Mullins MC, Mayor R ., Development. December 1, 2003; 130 (26): 6441-52.
Differential gene expression between the embryonic tail bud and regenerating larval tail in Xenopus laevis. , Sugiura T, Taniguchi Y, Tazaki A , Ueno N , Watanabe K , Mochii M., Dev Growth Differ. February 1, 2004; 46 (1): 97-105.
Cross-regulation of Wnt signaling and cell adhesion. , Schambony A , Kunz M, Gradl D ., Differentiation. September 1, 2004; 72 (7): 307-18.
Frzb modulates Wnt-9a-mediated beta-catenin signaling during avian atrioventricular cardiac cushion development. , Person AD, Garriock RJ, Krieg PA , Runyan RB, Klewer SE., Dev Biol. February 1, 2005; 278 (1): 35-48.
Maternal wnt11 activates the canonical wnt signaling pathway required for axis formation in Xenopus embryos. , Tao Q , Tao Q , Yokota C, Puck H, Kofron M , Birsoy B, Yan D, Asashima M , Wylie CC , Lin X, Heasman J ., Cell. March 25, 2005; 120 (6): 857-71.
Reorganization of actin cytoskeleton by FRIED, a Frizzled-8 associated protein tyrosine phosphatase. , Itoh K, Lisovsky M, Hikasa H, Sokol SY ., Dev Dyn. September 1, 2005; 234 (1): 90-101.
Xenopus frizzled-4S, a splicing variant of Xfz4 is a context-dependent activator and inhibitor of Wnt/beta-catenin signaling. , Swain RK, Katoh M, Medina A, Steinbeisser H ., Cell Commun Signal. October 19, 2005; 3 12.
Wnt5 signaling in vertebrate pancreas development. , Kim HJ , Schleiffarth JR, Jessurun J, Sumanas S, Petryk A, Lin S, Ekker SC ., BMC Biol. October 24, 2005; 3 23.
Role of crescent in convergent extension movements by modulating Wnt signaling in early Xenopus embryogenesis. , Shibata M , Itoh M, Hikasa H, Taira S , Taira M ., Mech Dev. December 1, 2005; 122 (12): 1322-39.
The zic1 gene is an activator of Wnt signaling. , Merzdorf CS , Sive HL ., Int J Dev Biol. January 1, 2006; 50 (7): 611-7.
Jun NH2-terminal kinase ( JNK) prevents nuclear beta-catenin accumulation and regulates axis formation in Xenopus embryos. , Liao G, Tao Q , Tao Q , Kofron M , Chen JS , Schloemer A, Davis RJ, Hsieh JC, Wylie C , Heasman J , Kuan CY., Proc Natl Acad Sci U S A. October 31, 2006; 103 (44): 16313-8.
The mother superior mutation ablates foxd3 activity in neural crest progenitor cells and depletes neural crest derivatives in zebrafish. , Montero-Balaguer M, Lang MR, Sachdev SW, Knappmeyer C, Stewart RA, De La Guardia A, Hatzopoulos AK, Knapik EW., Dev Dyn. December 1, 2006; 235 (12): 3199-212.
Wnt-5A/ Ror2 regulate expression of XPAPC through an alternative noncanonical signaling pathway. , Schambony A , Wedlich D ., Dev Cell. May 1, 2007; 12 (5): 779-92.
Wnt5a functions in planar cell polarity regulation in mice. , Qian D, Jones C , Rzadzinska A, Mark S, Zhang X, Steel KP, Dai X, Chen P., Dev Biol. June 1, 2007; 306 (1): 121-33.
The functions and possible significance of Kremen as the gatekeeper of Wnt signalling in development and pathology. , Nakamura T, Nakamura T, Matsumoto K ., J Cell Mol Med. April 1, 2008; 12 (2): 391-408.
Requirement for Wnt and FGF signaling in Xenopus tadpole tail regeneration. , Lin G , Slack JM ., Dev Biol. April 15, 2008; 316 (2): 323-35.
Ryk cooperates with Frizzled 7 to promote Wnt11-mediated endocytosis and is essential for Xenopus laevis convergent extension movements. , Kim GH , Her JH, Han JK ., J Cell Biol. September 22, 2008; 182 (6): 1073-82.
Sfrp5 coordinates foregut specification and morphogenesis by antagonizing both canonical and noncanonical Wnt11 signaling. , Li Y, Rankin SA , Rankin SA , Sinner D , Kenny AP , Krieg PA , Zorn AM ., Genes Dev. November 1, 2008; 22 (21): 3050-63.
Wnt5a and Wnt11 interact in a maternal Dkk1-regulated fashion to activate both canonical and non-canonical signaling in Xenopus axis formation. , Cha SW , Tadjuidje E , Tao Q , Tao Q , Wylie C , Heasman J ., Development. November 1, 2008; 135 (22): 3719-29.
Beta- arrestin and casein kinase 1/2 define distinct branches of non-canonical WNT signalling pathways. , Bryja V , Schambony A , Cajánek L, Dominguez I , Arenas E, Schulte G ., EMBO Rep. December 1, 2008; 9 (12): 1244-50.
Xenopus Wnt-5a induces an ectopic larval tail at injured site, suggesting a crucial role for noncanonical Wnt signal in tail regeneration. , Sugiura T, Tazaki A , Ueno N , Watanabe K , Mochii M., Mech Dev. January 1, 2009; 126 (1-2): 56-67.
The extracellular domain of Lrp5/6 inhibits noncanonical Wnt signaling in vivo. , Bryja V , Andersson ER, Schambony A , Esner M, Bryjová L, Biris KK, Hall AC, Kraft B, Cajanek L, Yamaguchi TP, Buckingham M, Arenas E., Mol Biol Cell. February 1, 2009; 20 (3): 924-36.