Papers associated with optic vesicle (and gsc)

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	Genome-wide analysis of dorsal and ventral transcriptomes of the Xenopus laevis gastrula., Ding Y., Dev Biol. June 15, 2017; 426 (2): 176-187.
	Spemann organizer transcriptome induction by early beta-catenin, Wnt, Nodal, and Siamois signals in Xenopus laevis., Ding Y., Proc Natl Acad Sci U S A. April 11, 2017; 114 (15): E3081-E3090.
	Differential requirement of bone morphogenetic protein receptors Ia (ALK3) and Ib (ALK6) in early embryonic patterning and neural crest development., Schille C., BMC Dev Biol. January 19, 2016; 16 1.
	Identification of microRNAs and microRNA targets in Xenopus gastrulae: The role of miR-26 in the regulation of Smad1., Liu C., Dev Biol. January 1, 2016; 409 (1): 26-38.
	The serpin PN1 is a feedback regulator of FGF signaling in germ layer and primary axis formation., Acosta H., Development. March 15, 2015; 142 (6): 1146-58.
	Xenopus laevis FGF receptor substrate 3 (XFrs3) is important for eye development and mediates Pax6 expression in lens placode through its Shp2-binding sites., Kim YJ., Dev Biol. January 1, 2015; 397 (1): 129-39.
	Fezf2 promotes neuronal differentiation through localised activation of Wnt/β-catenin signalling during forebrain development., Zhang S., Development. December 1, 2014; 141 (24): 4794-805.
	The splicing factor PQBP1 regulates mesodermal and neural development through FGF signaling., Iwasaki Y., Development. October 1, 2014; 141 (19): 3740-51.
	Custos controls β-catenin to regulate head development during vertebrate embryogenesis., Komiya Y., Proc Natl Acad Sci U S A. September 9, 2014; 111 (36): 13099-104.
	Occupancy of tissue-specific cis-regulatory modules by Otx2 and TLE/Groucho for embryonic head specification., Yasuoka Y., Nat Commun. July 9, 2014; 5 4322.
	FoxA4 favours notochord formation by inhibiting contiguous mesodermal fates and restricts anterior neural development in Xenopus embryos., Murgan S., PLoS One. January 1, 2014; 9 (10): e110559.
	The Xenopus Tgfbi is required for embryogenesis through regulation of canonical Wnt signalling., Wang F., Dev Biol. July 1, 2013; 379 (1): 16-27.
	Suv4-20h histone methyltransferases promote neuroectodermal differentiation by silencing the pluripotency-associated Oct-25 gene., Nicetto D., PLoS Genet. January 1, 2013; 9 (1): e1003188.
	Microarray-based identification of Pitx3 targets during Xenopus embryogenesis., Hooker L., Dev Dyn. September 1, 2012; 241 (9): 1487-505.
	Xmab21l3 mediates dorsoventral patterning in Xenopus laevis., Sridharan J., Mech Dev. July 1, 2012; 129 (5-8): 136-46.
	Plasma membrane cholesterol depletion disrupts prechordal plate and affects early forebrain patterning., Reis AH., Dev Biol. May 15, 2012; 365 (2): 350-62.
	Dynamic in vivo binding of transcription factors to cis-regulatory modules of cer and gsc in the stepwise formation of the Spemann-Mangold organizer., Sudou N., Development. May 1, 2012; 139 (9): 1651-61.
	Novel functions of Noggin proteins: inhibition of Activin/Nodal and Wnt signaling., Bayramov AV., Development. December 1, 2011; 138 (24): 5345-56.
	Loss of Xenopus tropicalis EMSY causes impairment of gastrulation and upregulation of p53., Rana AA., N Biotechnol. July 1, 2011; 28 (4): 334-41.
	Yes-associated protein 65 (YAP) expands neural progenitors and regulates Pax3 expression in the neural plate border zone., Gee ST., PLoS One. January 1, 2011; 6 (6): e20309.
	Anterior neural development requires Del1, a matrix-associated protein that attenuates canonical Wnt signaling via the Ror2 pathway., Takai A., Development. October 1, 2010; 137 (19): 3293-302.
	Wnt/beta-catenin signaling is involved in the induction and maintenance of primitive hematopoiesis in the vertebrate embryo., Tran HT., Proc Natl Acad Sci U S A. September 14, 2010; 107 (37): 16160-5.
	Non-redundant roles for Profilin2 and Profilin1 during vertebrate gastrulation., Khadka DK., Dev Biol. August 15, 2009; 332 (2): 396-406.
	Xenopus SMOC-1 Inhibits bone morphogenetic protein signaling downstream of receptor binding and is essential for postgastrulation development in Xenopus., Thomas JT., J Biol Chem. July 10, 2009; 284 (28): 18994-9005.
	Retinol dehydrogenase 10 is a feedback regulator of retinoic acid signalling during axis formation and patterning of the central nervous system., Strate I., Development. February 1, 2009; 136 (3): 461-72.
	Crossveinless-2 Is a BMP feedback inhibitor that binds Chordin/BMP to regulate Xenopus embryonic patterning., Ambrosio AL., Dev Cell. August 1, 2008; 15 (2): 248-60.
	The mych gene is required for neural crest survival during zebrafish development., Hong SK., PLoS One. April 9, 2008; 3 (4): e2029.
	Lrig3 regulates neural crest formation in Xenopus by modulating Fgf and Wnt signaling pathways., Zhao H., Development. April 1, 2008; 135 (7): 1283-93.
	Early molecular effects of ethanol during vertebrate embryogenesis., Yelin R., Differentiation. June 1, 2007; 75 (5): 393-403.
	The evolutionally conserved activity of Dapper2 in antagonizing TGF-beta signaling., Su Y., FASEB J. March 1, 2007; 21 (3): 682-90.
	PP2A:B56epsilon is required for eye induction and eye field separation., Rorick AM., Dev Biol. February 15, 2007; 302 (2): 477-93.
	Xenopus glucose transporter 1 (xGLUT1) is required for gastrulation movement in Xenopus laevis., Suzawa K., Int J Dev Biol. January 1, 2007; 51 (3): 183-90.
	Kermit 2/XGIPC, an IGF1 receptor interacting protein, is required for IGF signaling in Xenopus eye development., Wu J., Development. September 1, 2006; 133 (18): 3651-60.
	Metastasis-associated kinase modulates Wnt signaling to regulate brain patterning and morphogenesis., Kibardin A., Development. August 1, 2006; 133 (15): 2845-54.
	Novel gene ashwin functions in Xenopus cell survival and anteroposterior patterning., Patil SS., Dev Dyn. July 1, 2006; 235 (7): 1895-907.
	The assembly of POSH-JNK regulates Xenopus anterior neural development., Kim GH., Dev Biol. October 1, 2005; 286 (1): 256-69.
	Novel Daple-like protein positively regulates both the Wnt/beta-catenin pathway and the Wnt/JNK pathway in Xenopus., Kobayashi H., Mech Dev. October 1, 2005; 122 (10): 1138-53.
	Frodo proteins: modulators of Wnt signaling in vertebrate development., Brott BK., Differentiation. September 1, 2005; 73 (7): 323-9.
	JNK and ROKalpha function in the noncanonical Wnt/RhoA signaling pathway to regulate Xenopus convergent extension movements., Kim GH., Dev Dyn. April 1, 2005; 232 (4): 958-68.
	The ARID domain protein dril1 is necessary for TGF(beta) signaling in Xenopus embryos., Callery EM., Dev Biol. February 15, 2005; 278 (2): 542-59.
	Global analysis of RAR-responsive genes in the Xenopus neurula using cDNA microarrays., Arima K., Dev Dyn. February 1, 2005; 232 (2): 414-31.
	Neural induction in Xenopus requires early FGF signalling in addition to BMP inhibition., Delaune E., Development. January 1, 2005; 132 (2): 299-310.
	Induction of tooth and eye by transplantation of activin A-treated, undifferentiated presumptive ectodermal Xenopus cells into the abdomen., Myoishi Y., Int J Dev Biol. December 1, 2004; 48 (10): 1105-12.
	Twisted gastrulation loss-of-function analyses support its role as a BMP inhibitor during early Xenopus embryogenesis., Blitz IL., Development. October 1, 2003; 130 (20): 4975-88.
	Xenopus X-box binding protein 1, a leucine zipper transcription factor, is involved in the BMP signaling pathway., Zhao H., Dev Biol. May 15, 2003; 257 (2): 278-91.
	Role of 14-3-3 proteins in early Xenopus development., Wu C., Mech Dev. November 1, 2002; 119 (1): 45-54.
	The latent-TGFbeta-binding-protein-1 (LTBP-1) is expressed in the organizer and regulates nodal and activin signaling., Altmann CR., Dev Biol. August 1, 2002; 248 (1): 118-27.
	otx2 expression in the ectoderm activates anterior neural determination and is required for Xenopus cement gland formation., Gammill LS., Dev Biol. December 1, 2001; 240 (1): 223-36.
	Siamois functions in the early blastula to induce Spemann's organiser., Kodjabachian L., Mech Dev. October 1, 2001; 108 (1-2): 71-9.
	Goosecoid promotes head organizer activity by direct repression of Xwnt8 in Spemann's organizer., Yao J., Development. August 1, 2001; 128 (15): 2975-87.

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