Papers associated with efnb1

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	Polarized contact behavior in directionally migrating Xenopus gastrula mesendoderm., Nagel M, Winklbauer R., Int J Dev Biol. January 1, 2023; 67 (3): 79-90.
	Retinoic Acid is Required for Normal Morphogenetic Movements During Gastrulation., Gur M, Edri T, Moody SA, Fainsod A., Front Cell Dev Biol. January 1, 2022; 10 857230.
	Capillarity and active cell movement at mesendoderm translocation in the Xenopus gastrula., Nagel M, Barua D, Damm EW, Kashef J, Hofmann R, Ershov A, Cecilia A, Moosmann J, Baumbach T, Winklbauer R., Development. March 29, 2021; 148 (18):
	Rab11fip5 regulates telencephalon development via ephrinB1 recycling., Yoon J, Garo J, Lee M, Sun J, Hwang YS, Daar IO., Development. February 2, 2021; 148 (3):
	Sprouty2 regulates positioning of retinal progenitors through suppressing the Ras/Raf/MAPK pathway., Sun J, Yoon J, Lee M, Hwang YS, Daar IO., Sci Rep. August 13, 2020; 10 (1): 13752.
	PDGF-A suppresses contact inhibition during directional collective cell migration., Nagel M, Winklbauer R., Development. July 5, 2018; 145 (13):
	Ingression-type cell migration drives vegetal endoderm internalisation in the Xenopus gastrula., Wen JW, Winklbauer R., Elife. August 10, 2017; 6
	Sorting at embryonic boundaries requires high heterotypic interfacial tension., Canty L, Zarour E, Kashkooli L, François P, Fagotto F., Nat Commun. July 31, 2017; 8 (1): 157.
	High variability of expression profiles of homeologous genes for Wnt, Hh, Notch, and Hippo signaling pathways in Xenopus laevis., Michiue T, Yamamoto T, Yasuoka Y, Goto T, Ikeda T, Nagura K, Nakayama T, Taira M, Kinoshita T., Dev Biol. June 15, 2017; 426 (2): 270-290.
	High-throughput analysis reveals novel maternal germline RNAs crucial for primordial germ cell preservation and proper migration., Owens DA, Butler AM, Aguero TH, Newman KM, Van Booven D, King ML., Development. January 15, 2017; 144 (2): 292-304.
	A frog's view of EphrinB signaling., Hwang YS, Daar IO., Genesis. January 1, 2017; 55 (1-2):
	PAPC mediates self/non-self-distinction during Snail1-dependent tissue separation., Luu O, Damm EW, Parent SE, Barua D, Smith TH, Wen JW, Lepage SE, Nagel M, Ibrahim-Gawel H, Huang Y, Bruce AE, Winklbauer R., J Cell Biol. March 16, 2015; 208 (6): 839-56.
	Characterization of the Rx1-dependent transcriptome during early retinal development., Giudetti G, Giannaccini M, Biasci D, Mariotti S, Degl'innocenti A, Perrotta M, Barsacchi G, Andreazzoli M., Dev Dyn. October 1, 2014; 243 (10): 1352-61.
	Variable combinations of specific ephrin ligand/Eph receptor pairs control embryonic tissue separation., Rohani N, Parmeggiani A, Winklbauer R, Fagotto F., PLoS Biol. September 23, 2014; 12 (9): e1001955.
	Pick1 modulates ephrinB1-induced junctional disassembly through an association with ephrinB1., Son J, Park MS, Park I, Lee HK, Lee SH, Kang B, Min BH, Ryoo J, Lee S, Bae JS, Kim SH, Park MJ, Lee HS., Biochem Biophys Res Commun. July 18, 2014; 450 (1): 659-65.
	Craniofrontonasal syndrome in a male due to chromosomal mosaicism involving EFNB1: further insights into a genetic paradox., Evers C, Jungwirth MS, Morgenthaler J, Hinderhofer K, Maas B, Janssen JW, Jauch A, Hehr U, Steinbeisser H, Moog U., Clin Genet. April 1, 2014; 85 (4): 347-53.
	EphrinB2 affects apical constriction in Xenopus embryos and is regulated by ADAM10 and flotillin-1., Ji YJ, Hwang YS, Mood K, Cho HJ, Lee HS, Winterbottom E, Cousin H, Daar IO., Nat Commun. January 1, 2014; 5 3516.
	The Smurf ubiquitin ligases regulate tissue separation via antagonistic interactions with ephrinB1., Hwang YS, Lee HS, Kamata T, Mood K, Cho HJ, Winterbottom E, Ji YJ, Singh A, Daar IO., Genes Dev. March 1, 2013; 27 (5): 491-503.
	Thyroid hormone-dependent development in Xenopus laevis: a sensitive screen of thyroid hormone signaling disruption by municipal wastewater treatment plant effluent., Searcy BT, Beckstrom-Sternberg SM, Beckstrom-Sternberg JS, Stafford P, Schwendiman AL, Soto-Pena J, Owen MC, Ramirez C, Phillips J, Veldhoen N, Helbing CC, Propper CR., Gen Comp Endocrinol. May 1, 2012; 176 (3): 481-92.
	Roles of ADAM13-regulated Wnt activity in early Xenopus eye development., Wei S, Xu G, Bridges LC, Williams P, Nakayama T, Shah A, Grainger RM, White JM, DeSimone DW., Dev Biol. March 1, 2012; 363 (1): 147-54.
	EphrinB1 interacts with the transcriptional co-repressor Groucho/xTLE4., Kamata T, Bong YS, Mood K, Park MJ, Nishanian TG, Lee HS., BMB Rep. March 1, 2011; 44 (3): 199-204.
	ADAM13 induces cranial neural crest by cleaving class B Ephrins and regulating Wnt signaling., Wei S, Xu G, Bridges LC, Williams P, White JM, DeSimone DW., Dev Cell. August 17, 2010; 19 (2): 345-52.
	Identification of germ plasm-associated transcripts by microarray analysis of Xenopus vegetal cortex RNA., Cuykendall TN, Houston DW., Dev Dyn. June 1, 2010; 239 (6): 1838-48.
	A microarray screen for direct targets of Zic1 identifies an aquaporin gene, aqp-3b, expressed in the neural folds., Cornish EJ, Hassan SM, Martin JD, Li S, Merzdorf CS., Dev Dyn. May 1, 2009; 238 (5): 1179-94.
	Fibroblast growth factor receptor-induced phosphorylation of ephrinB1 modulates its interaction with Dishevelled., Lee HS, Mood K, Battu G, Ji YJ, Singh A, Daar IO., Mol Biol Cell. January 1, 2009; 20 (1): 124-33.
	EphrinB reverse signaling in cell-cell adhesion: is it just par for the course?, Lee HS, Lee HS, Daar IO., Cell Adh Migr. January 1, 2009; 3 (3): 250-5.
	EphrinB1 controls cell-cell junctions through the Par polarity complex., Lee HS, Nishanian TG, Mood K, Bong YS, Daar IO., Nat Cell Biol. August 1, 2008; 10 (8): 979-86.
	ephrinB1 signals from the cell surface to the nucleus by recruitment of STAT3., Bong YS, Lee HS, Carim-Todd L, Mood K, Nishanian TG, Tessarollo L, Daar IO., Proc Natl Acad Sci U S A. October 30, 2007; 104 (44): 17305-10.
	Dishevelled mediates ephrinB1 signalling in the eye field through the planar cell polarity pathway., Lee HS, Bong YS, Moore KB, Soria K, Moody SA, Daar IO., Nat Cell Biol. January 1, 2006; 8 (1): 55-63.
	An atlas of differential gene expression during early Xenopus embryogenesis., Pollet N, Muncke N, Verbeek B, Li Y, Fenger U, Delius H, Niehrs C., Mech Dev. March 1, 2005; 122 (3): 365-439.
	To differentiate or not to differentiate: regulation of cell fate decisions by being in the right place at the right time., Moody SA., Cell Cycle. May 1, 2004; 3 (5): 564-6.
	Tyr-298 in ephrinB1 is critical for an interaction with the Grb4 adaptor protein., Bong YS, Park YH, Lee HS, Lee HS, Mood K, Ishimura A, Daar IO., Biochem J. January 15, 2004; 377 (Pt 2): 499-507.
	New views on retinal axon development: a navigation guide., Mann F, Harris WA, Holt CE., Int J Dev Biol. January 1, 2004; 48 (8-9): 957-64.
	Morphogenetic movements underlying eye field formation require interactions between the FGF and ephrinB1 signaling pathways., Moore KB, Mood K, Daar IO, Moody SA., Dev Cell. January 1, 2004; 6 (1): 55-67.
	Novel gene expression domains reveal early patterning of the Xenopus endoderm., Costa RM, Mason J, Lee M, Amaya E, Zorn AM., Gene Expr Patterns. August 1, 2003; 3 (4): 509-19.
	A ubiquitous and conserved signal for RNA localization in chordates., Betley JN, Frith MC, Graber JH, Choo S, Deshler JO., Curr Biol. October 15, 2002; 12 (20): 1756-61.
	Topographic mapping in dorsoventral axis of the Xenopus retinotectal system depends on signaling through ephrin-B ligands., Mann F, Ray S, Harris W, Holt C., Neuron. August 1, 2002; 35 (3): 461-73.
	The receptor tyrosine kinase EphB4 and ephrin-B ligands restrict angiogenic growth of embryonic veins in Xenopus laevis., Helbling PM, Saulnier DM, Brändli AW., Development. January 1, 2000; 127 (2): 269-78.
	Loss of cell adhesion in Xenopus laevis embryos mediated by the cytoplasmic domain of XLerk, an erythropoietin-producing hepatocellular ligand., Jones TL, Chong LD, Kim J, Xu RH, Kung HF, Daar IO., Proc Natl Acad Sci U S A. January 20, 1998; 95 (2): 576-81.
	Identification of XLerk, an Eph family ligand regulated during mesoderm induction and neurogenesis in Xenopus laevis., Jones TL, Karavanova I, Chong L, Zhou RP, Daar IO., Oncogene. May 8, 1997; 14 (18): 2159-66.

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