Papers associated with gsk3b

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	Differential requirements of BMP and Wnt signalling during gastrulation and neurulation define two steps in neural crest induction., Steventon B, Araya C, Linker C, Kuriyama S, Mayor R., Development. March 1, 2009; 136 (5): 771-9.
	Identification of targets of the Wnt pathway destruction complex in addition to beta-catenin., Kim NG, Xu C, Gumbiner BM., Proc Natl Acad Sci U S A. March 31, 2009; 106 (13): 5165-70.
	Wnt/beta-catenin signaling: components, mechanisms, and diseases., MacDonald BT, Tamai K, He X., Dev Cell. July 1, 2009; 17 (1): 9-26.
	Mad is required for wingless signaling in wing development and segment patterning in Drosophila., Eivers E, Fuentealba LC, Sander V, Clemens JC, Hartnett L, De Robertis EM., PLoS One. August 6, 2009; 4 (8): e6543.
	Threonine 393 of beta-catenin regulates interaction with Axin., Wu H, Symes K, Seldin DC, Dominguez I., J Cell Biochem. September 1, 2009; 108 (1): 52-63.
	Early requirement of Hyaluronan for tail regeneration in Xenopus tadpoles., Contreras EG, Gaete M, Sánchez N, Carrasco H, Larraín J., Development. September 1, 2009; 136 (17): 2987-96.
	Evidence that fold-change, and not absolute level, of beta-catenin dictates Wnt signaling., Goentoro L, Kirschner MW., Mol Cell. December 11, 2009; 36 (5): 872-84.
	Stimulation of electrogenic glucose transport by glycogen synthase kinase 3., Rexhepaj R, Dërmaku-Sopjani M, Gehring EM, Sopjani M, Kempe DS, Föller M, Lang F., Cell Physiol Biochem. January 1, 2010; 26 (4-5): 641-6.
	p63 antagonizes Wnt-induced transcription., Drewelus I, Göpfert C, Hippel C, Dickmanns A, Damianitsch K, Pieler T, Dobbelstein M., Cell Cycle. February 1, 2010; 9 (3): 580-87.
	Systematic discovery of nonobvious human disease models through orthologous phenotypes., McGary KL, Park TJ, Woods JO, Cha HJ, Wallingford JB, Marcotte EM., Proc Natl Acad Sci U S A. April 6, 2010; 107 (14): 6544-9.
	Gbetagamma activates GSK3 to promote LRP6-mediated beta-catenin transcriptional activity., Jernigan KK, Cselenyi CS, Thorne CA, Hanson AJ, Tahinci E, Hajicek N, Oldham WM, Lee LA, Hamm HE, Hepler JR, Kozasa T, Linder ME, Lee E., Sci Signal. May 11, 2010; 3 (121): ra37.
	A useful approach to identify novel small-molecule inhibitors of Wnt-dependent transcription., Ewan K, Pajak B, Stubbs M, Todd H, Barbeau O, Quevedo C, Botfield H, Young R, Ruddle R, Samuel L, Battersby A, Raynaud F, Allen N, Wilson S, Latinkic B, Workman P, McDonald E, Blagg J, Aherne W, Dale T., Cancer Res. July 15, 2010; 70 (14): 5963-73.
	Wnt signaling requires sequestration of glycogen synthase kinase 3 inside multivesicular endosomes., Taelman VF, Dobrowolski R, Plouhinec JL, Fuentealba LC, Vorwald PP, Gumper I, Sabatini DD, De Robertis EM., Cell. December 23, 2010; 143 (7): 1136-48.
	Different requirement for Wnt/β-catenin signaling in limb regeneration of larval and adult Xenopus., Yokoyama H, Maruoka T, Ochi H, Aruga A, Ohgo S, Ogino H, Tamura K, Tamura K., PLoS One. January 1, 2011; 6 (7): e21721.
	Network based transcription factor analysis of regenerating axolotl limbs., Jhamb D, Rao N, Milner DJ, Song F, Cameron JA, Stocum DL, Palakal MJ., BMC Bioinformatics. March 18, 2011; 12 80.
	Phosphorylation of TCF proteins by homeodomain-interacting protein kinase 2., Hikasa H, Sokol SY., J Biol Chem. April 8, 2011; 286 (14): 12093-100.
	PKB/SGK-resistant GSK3 enhances phosphaturia and calciuria., Föller M, Kempe DS, Boini KM, Pathare G, Siraskar B, Capuano P, Alesutan I, Sopjani M, Stange G, Mohebbi N, Bhandaru M, Ackermann TF, Judenhofer MS, Pichler BJ, Biber J, Wagner CA, Lang F., J Am Soc Nephrol. May 1, 2011; 22 (5): 873-80.
	Notch destabilises maternal beta-catenin and restricts dorsal-anterior development in Xenopus., Acosta H, López SL, Revinski DR, Carrasco AE., Development. June 1, 2011; 138 (12): 2567-79.
	A novel mechanism for the transcriptional regulation of Wnt signaling in development., Vacik T, Stubbs JL, Lemke G., Genes Dev. September 1, 2011; 25 (17): 1783-95.
	Canonical WNT signaling enhances stem cell expression in the developing heart without a corresponding inhibition of cardiogenic differentiation., Martin LK, Mezentseva NV, Bratoeva M, Ramsdell AF, Eisenberg CA, Eisenberg LM., Stem Cells Dev. November 1, 2011; 20 (11): 1973-83.
	Cortical rotation and messenger RNA localization in Xenopus axis formation., Houston DW., Wiley Interdiscip Rev Dev Biol. January 1, 2012; 1 (3): 371-88.
	Inhibition of heart formation by lithium is an indirect result of the disruption of tissue organization within the embryo., Martin LK, Bratoeva M, Mezentseva NV, Bernanke JM, Remond MC, Ramsdell AF, Eisenberg CA, Eisenberg LM., Dev Growth Differ. February 1, 2012; 54 (2): 153-66.
	Conservation and evolutionary divergence in the activity of receptor-regulated smads., Sorrentino GM, Gillis WQ, Oomen-Hajagos J, Thomsen GH., Evodevo. October 1, 2012; 3 (1): 22.
	Interactions between Twist and other core epithelial-mesenchymal transition factors are controlled by GSK3-mediated phosphorylation., Lander R, Nasr T, Ochoa SD, Nordin K, Prasad MS, Labonne C., Nat Commun. January 1, 2013; 4 1542.
	Single blastomere expression profiling of Xenopus laevis embryos of 8 to 32-cells reveals developmental asymmetry., Flachsova M, Sindelka R, Kubista M., Sci Rep. January 1, 2013; 3 2278.
	Phosphorylation of Dishevelled by protein kinase RIPK4 regulates Wnt signaling., Huang X, McGann JC, Liu BY, Hannoush RN, Lill JR, Pham V, Newton K, Kakunda M, Liu J, Yu C, Hymowitz SG, Hongo JA, Wynshaw-Boris A, Polakis P, Harland RM, Dixit VM., Science. March 22, 2013; 339 (6126): 1441-5.
	Xenopus cytoplasmic linker-associated protein 1 (XCLASP1) promotes axon elongation and advance of pioneer microtubules., Marx A, Godinez WJ, Tsimashchuk V, Bankhead P, Rohr K, Engel U., Mol Biol Cell. May 1, 2013; 24 (10): 1544-58.
	Anteroposterior and dorsoventral patterning are coordinated by an identical patterning clock., Hashiguchi M, Mullins MC., Development. May 1, 2013; 140 (9): 1970-80.
	Wnt stabilization of β-catenin reveals principles for morphogen receptor-scaffold assemblies., Kim SE, Huang H, Zhao M, Zhang X, Zhang A, Semonov MV, MacDonald BT, Zhang X, Garcia Abreu J, Peng L, He X., Science. May 17, 2013; 340 (6134): 867-70.
	Different thresholds of Wnt-Frizzled 7 signaling coordinate proliferation, morphogenesis and fate of endoderm progenitor cells., Zhang Z, Rankin SA, Zorn AM., Dev Biol. June 1, 2013; 378 (1): 1-12.
	The Xenopus Tgfbi is required for embryogenesis through regulation of canonical Wnt signalling., Wang F, Hu W, Xian J, Ohnuma S, Brenton JD., Dev Biol. July 1, 2013; 379 (1): 16-27.
	Analysing the impact of nucleo-cytoplasmic shuttling of β-catenin and its antagonists APC, Axin and GSK3 on Wnt/β-catenin signalling., Schmitz Y, Rateitschak K, Wolkenhauer O., Cell Signal. November 1, 2013; 25 (11): 2210-21.
	Role of Sp5 as an essential early regulator of neural crest specification in xenopus., Park DS, Seo JH, Hong M, Bang W, Han JK, Choi SC., Dev Dyn. December 1, 2013; 242 (12): 1382-94.
	Cholesterol selectively activates canonical Wnt signalling over non-canonical Wnt signalling., Sheng R, Kim H, Lee H, Lee H, Xin Y, Chen Y, Tian W, Cui Y, Choi JC, Doh J, Han JK, Cho W., Nat Commun. July 15, 2014; 5 4393.
	The tumor suppressor Smad4/DPC4 is regulated by phosphorylations that integrate FGF, Wnt, and TGF-β signaling., Demagny H, Araki T, De Robertis EM., Cell Rep. October 23, 2014; 9 (2): 688-700.
	The ubiquitin ligase RNF220 enhances canonical Wnt signaling through USP7-mediated deubiquitination of β-catenin., Ma P, Yang X, Kong Q, Li C, Yang S, Li Y, Mao B., Mol Cell Biol. December 1, 2014; 34 (23): 4355-66.
	GSK3 and Polo-like kinase regulate ADAM13 function during cranial neural crest cell migration., Abbruzzese G, Cousin H, Salicioni AM, Alfandari D, Alfandari D., Mol Biol Cell. December 15, 2014; 25 (25): 4072-82.
	Phosphorylation-dependent ubiquitination of paraxial protocadherin (PAPC) controls gastrulation cell movements., Kai M, Ueno N, Kinoshita N., PLoS One. January 12, 2015; 10 (1): e0115111.
	Glycine transporters GlyT1 and GlyT2 are differentially modulated by glycogen synthase kinase 3β., Jiménez E, Núñez E, Ibáñez I, Zafra F, Aragón C, Giménez C., Neuropharmacology. February 1, 2015; 89 245-54.
	Early development of the neural plate: new roles for apoptosis and for one of its main effectors caspase-3., Juraver-Geslin HA, Durand BC., Genesis. February 1, 2015; 53 (2): 203-24.
	Maternal Wnt/STOP signaling promotes cell division during early Xenopus embryogenesis., Huang YL, Anvarian Z, Döderlein G, Acebron SP, Niehrs C., Proc Natl Acad Sci U S A. May 5, 2015; 112 (18): 5732-7.
	Spatial and temporal aspects of Wnt signaling and planar cell polarity during vertebrate embryonic development., Sokol SY., Semin Cell Dev Biol. June 1, 2015; 42 78-85.
	Prediction of Functionally Important Phospho-Regulatory Events in Xenopus laevis Oocytes., Johnson JR, Santos SD, Johnson T, Pieper U, Strumillo M, Wagih O, Sali A, Krogan NJ, Beltrao P., PLoS Comput Biol. August 27, 2015; 11 (8): e1004362.
	Up-Regulation of the Large-Conductance Ca2+-Activated K+ Channel by Glycogen Synthase Kinase GSK3β., Fezai M, Ahmed M, Hosseinzadeh Z, Lang F., Cell Physiol Biochem. January 1, 2016; 39 (3): 1031-9.
	Electron Transport Chain Remodeling by GSK3 during Oogenesis Connects Nutrient State to Reproduction., Sieber MH, Thomsen MB, Spradling AC., Cell. January 28, 2016; 164 (3): 420-32.
	Involvement of JunB Proto-Oncogene in Tail Formation During Early Xenopus Embryogenesis., Yoshida H, Okada M, Takebayashi-Suzuki K, Ueno N, Suzuki A., Zoolog Sci. June 1, 2016; 33 (3): 282-9.
	Gtpbp2 is a positive regulator of Wnt signaling and maintains low levels of the Wnt negative regulator Axin., Gillis WQ, Kirmizitas A, Iwasaki Y, Ki DH, Wyrick JM, Thomsen GH., Cell Commun Signal. August 2, 2016; 14 (1): 15.
	Aberrant regulation of Wnt signaling in hepatocellular carcinoma., Liu LJ, Xie SX, Chen YT, Xue JL, Zhang CJ, Zhu F., World J Gastroenterol. September 7, 2016; 22 (33): 7486-99.
	Capsaicin inhibits the Wnt/β-catenin signaling pathway by down-regulating PP2A., Park DS, Yoon GH, Lee HS, Choi SC., Biochem Biophys Res Commun. September 9, 2016; 478 (1): 455-461.
	Genome evolution in the allotetraploid frog Xenopus laevis., Session AM, Uno Y, Kwon T, Chapman JA, Toyoda A, Takahashi S, Fukui A, Hikosaka A, Suzuki A, Kondo M, van Heeringen SJ, Quigley I, Heinz S, Ogino H, Ochi H, Hellsten U, Lyons JB, Simakov O, Putnam N, Stites J, Kuroki Y, Tanaka T, Michiue T, Watanabe M, Bogdanovic O, Lister R, Georgiou G, Paranjpe SS, van Kruijsbergen I, Shu S, Carlson J, Kinoshita T, Ohta Y, Mawaribuchi S, Jenkins J, Grimwood J, Schmutz J, Mitros T, Mozaffari SV, Suzuki Y, Haramoto Y, Yamamoto TS, Takagi C, Heald R, Miller K, Haudenschild C, Kitzman J, Nakayama T, Izutsu Y, Robert J, Fortriede J, Burns K, Lotay V, Karimi K, Yasuoka Y, Dichmann DS, Flajnik MF, Houston DW, Shendure J, DuPasquier L, Vize PD, Zorn AM, Ito M, Marcotte EM, Wallingford JB, Ito Y, Asashima M, Ueno N, Matsuda Y, Veenstra GJ, Fujiyama A, Harland RM, Taira M, Rokhsar DS., Nature. October 20, 2016; 538 (7625): 336-343.

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