Papers associated with neurula stage

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	EBF factors drive expression of multiple classes of target genes governing neuronal development., Green YS, Vetter ML., Neural Dev. April 30, 2011; 6 19.
	Hox and Pbx factors control retinoic acid synthesis during hindbrain segmentation., Vitobello A, Ferretti E, Lampe X, Vilain N, Ducret S, Ori M, Spetz JF, Selleri L, Rijli FM., Dev Cell. April 19, 2011; 20 (4): 469-82.
	A revised model of Xenopus dorsal midline development: differential and separable requirements for Notch and Shh signaling., Peyrot SM, Wallingford JB, Harland RM., Dev Biol. April 15, 2011; 352 (2): 254-66.
	Siamois and Twin are redundant and essential in formation of the Spemann organizer., Bae S, Reid CD, Kessler DS., Dev Biol. April 15, 2011; 352 (2): 367-81.
	Rspo3 binds syndecan 4 and induces Wnt/PCP signaling via clathrin-mediated endocytosis to promote morphogenesis., Ohkawara B, Glinka A, Niehrs C., Dev Cell. March 15, 2011; 20 (3): 303-14.
	Origin of muscle satellite cells in the Xenopus embryo., Daughters RS, Chen Y, Slack JM., Development. March 1, 2011; 138 (5): 821-30.
	Knockdown of SPARC leads to decreased cell-cell adhesion and lens cataracts during post-gastrula development in Xenopus laevis., Huynh MH, Zhu SJ, Kollara A, Brown T, Winklbauer R, Ringuette M., Dev Genes Evol. March 1, 2011; 220 (11-12): 315-27.
	Use of fully modified 2'-O-methyl antisense oligos for loss-of-function studies in vertebrate embryos., Schneider PN, Olthoff JT, Matthews AJ, Houston DW., Genesis. March 1, 2011; 49 (3): 117-23.
	Embryonic frog epidermis: a model for the study of cell-cell interactions in the development of mucociliary disease., Dubaissi E, Papalopulu N., Dis Model Mech. March 1, 2011; 4 (2): 179-92.
	A transmembrane protein EIG121L is required for epidermal differentiation during early embryonic development., Araki T, Kusakabe M, Nishida E., J Biol Chem. February 25, 2011; 286 (8): 6760-8.
	Interaction of Sox1, Sox2, Sox3 and Oct4 during primary neurogenesis., Archer TC, Jin J, Casey ES., Dev Biol. February 15, 2011; 350 (2): 429-40.
	Activity of the RhoU/Wrch1 GTPase is critical for cranial neural crest cell migration., Fort P, Guémar L, Vignal E, Morin N, Notarnicola C, de Santa Barbara P, Faure S., Dev Biol. February 15, 2011; 350 (2): 451-63.
	APOBEC2, a selective inhibitor of TGFβ signaling, regulates left-right axis specification during early embryogenesis., Vonica A, Rosa A, Arduini BL, Brivanlou AH., Dev Biol. February 1, 2011; 350 (1): 13-23.
	The secreted integrin ligand nephronectin is necessary for forelimb formation in Xenopus tropicalis., Abu-Daya A, Nishimoto S, Fairclough L, Mohun TJ, Logan MP, Zimmerman LB., Dev Biol. January 15, 2011; 349 (2): 204-12.
	Reiterative AP2a activity controls sequential steps in the neural crest gene regulatory network., de Crozé N, Maczkowiak F, Monsoro-Burq AH., Proc Natl Acad Sci U S A. January 4, 2011; 108 (1): 155-60.
	The transcriptional coactivators Yap and TAZ are expressed during early Xenopus development., Nejigane S, Haramoto Y, Okuno M, Takahashi S, Asashima M., Int J Dev Biol. January 1, 2011; 55 (1): 121-6.
	Tissue-specific expression of Sarcoplasmic/Endoplasmic Reticulum Calcium ATPases (ATP2A/SERCA) 1, 2, 3 during Xenopus laevis development., Pegoraro C, Pollet N, Monsoro-Burq AH., Gene Expr Patterns. January 1, 2011; 11 (1-2): 122-8.
	Geminin cooperates with Polycomb to restrain multi-lineage commitment in the early embryo., Lim JW, Hummert P, Mills JC, Kroll KL., Development. January 1, 2011; 138 (1): 33-44.
	Regulation and expression of elrD1 and elrD2 transcripts during early Xenopus laevis development., Nassar F., Int J Dev Biol. January 1, 2011; 55 (1): 127-32.
	[Passive and active reactions of embryonic tissues to the action of dosed mechanical forces]., Mansurov AN, Belousov LV., Ontogenez. January 1, 2011; 42 (2): 126-32.
	Fgf is required to regulate anterior-posterior patterning in the Xenopus lateral plate mesoderm., Deimling SJ, Drysdale TA., Mech Dev. January 1, 2011; 128 (7-10): 327-41.
	Expression of Transposable Elements in Neural Tissues during Xenopus Development., Faunes F, Sanchez N, Moreno M, Olivares GH, Lee-Liu D, Almonacid L, Slater AW, Norambuena T, Taft RJ, Mattick JS, Melo F, Larrain J., PLoS One. January 1, 2011; 6 (7): e22569.
	Stage-specific histone modification profiles reveal global transitions in the Xenopus embryonic epigenome., Schneider TD, Arteaga-Salas JM, Mentele E, David R, Nicetto D, Imhof A, Rupp RA., PLoS One. January 1, 2011; 6 (7): e22548.
	Low frequency vibrations disrupt left-right patterning in the Xenopus embryo., Vandenberg LN, Pennarola BW, Levin M., PLoS One. January 1, 2011; 6 (8): e23306.
	Gadd45a and Gadd45g regulate neural development and exit from pluripotency in Xenopus., Kaufmann LT, Niehrs C., Mech Dev. January 1, 2011; 128 (7-10): 401-11.
	Temporal and spatial expression patterns of Cdc25 phosphatase isoforms during early Xenopus development., Nakajo N, Deno YK, Ueno H, Kenmochi C, Shimuta K, Sagata N., Int J Dev Biol. January 1, 2011; 55 (6): 627-32.
	Xenopus reduced folate carrier regulates neural crest development epigenetically., Li J, Shi Y, Shi Y, Sun J, Zhang Y, Zhang Y, Mao B., PLoS One. January 1, 2011; 6 (11): e27198.
	Hes6 is required for the neurogenic activity of neurogenin and NeuroD., Murai K, Philpott A, Jones PH., PLoS One. January 1, 2011; 6 (11): e27880.
	The RNA-binding protein Xp54nrb isolated from a Ca²+-dependent screen is expressed in neural structures during Xenopus laevis development., Neant I, Deisig N, Scerbo P, Leclerc C, Moreau M., Int J Dev Biol. January 1, 2011; 55 (10-12): 923-31.
	Characterization of a novel type I keratin gene and generation of transgenic lines with fluorescent reporter genes driven by its promoter/enhancer in Xenopus laevis., Suzuki KT, Kashiwagi K, Ujihara M, Marukane T, Tazaki A, Watanabe K, Mizuno N, Ueda Y, Kondoh H, Kashiwagi A, Mochii M., Dev Dyn. December 1, 2010; 239 (12): 3172-81.
	Xenopus Kazrin interacts with ARVCF-catenin, spectrin and p190B RhoGAP, and modulates RhoA activity and epithelial integrity., Cho K, Vaught TG, Ji H, Gu D, Papasakelariou-Yared C, Horstmann N, Jennings JM, Lee M, Sevilla LM, Kloc M, Reynolds AB, Watt FM, Brennan RG, Kowalczyk AP, McCrea PD., J Cell Sci. December 1, 2010; 123 (Pt 23): 4128-44.
	Prohibitin1 acts as a neural crest specifier in Xenopus development by repressing the transcription factor E2F1., Schneider M, Schambony A, Wedlich D., Development. December 1, 2010; 137 (23): 4073-81.
	Programming pluripotent precursor cells derived from Xenopus embryos to generate specific tissues and organs., Borchers A, Pieler T., Genes (Basel). November 18, 2010; 1 (3): 413-26.
	PlexinA1 interacts with PTK7 and is required for neural crest migration., Wagner G, Peradziryi H, Wehner P, Borchers A., Biochem Biophys Res Commun. November 12, 2010; 402 (2): 402-7.
	Neuronatin promotes neural lineage in ESCs via Ca(2+) signaling., Lin HH, Bell E, Uwanogho D, Perfect LW, Noristani H, Bates TJ, Snetkov V, Price J, Sun YM., Stem Cells. November 1, 2010; 28 (11): 1950-60.
	Jiraiya attenuates BMP signaling by interfering with type II BMP receptors in neuroectodermal patterning., Aramaki T, Sasai N, Yakura R, Sasai Y., Dev Cell. October 19, 2010; 19 (4): 547-61.
	ZFP423 coordinates Notch and bone morphogenetic protein signaling, selectively up-regulating Hes5 gene expression., Masserdotti G, Badaloni A, Green YS, Croci L, Barili V, Bergamini G, Vetter ML, Consalez GG., J Biol Chem. October 1, 2010; 285 (40): 30814-24.
	Wnt5a/Ror2-induced upregulation of xPAPC requires xShcA., Feike AC, Rachor K, Gentzel M, Schambony A., Biochem Biophys Res Commun. October 1, 2010; 400 (4): 500-6.
	Non-canonical ubiquitylation of the proneural protein Ngn2 occurs in both Xenopus embryos and mammalian cells., McDowell GS, Kucerova R, Philpott A., Biochem Biophys Res Commun. October 1, 2010; 400 (4): 655-60.
	Anterior neural development requires Del1, a matrix-associated protein that attenuates canonical Wnt signaling via the Ror2 pathway., Takai A, Inomata H, Arakawa A, Yakura R, Matsuo-Takasaki M, Sasai Y., Development. October 1, 2010; 137 (19): 3293-302.
	Histone XH2AX is required for Xenopus anterior neural development: critical role of threonine 16 phosphorylation., Lee SY, Lau AT, Jeong CH, Shim JH, Kim HG, Kim J, Bode AM, Dong Z., J Biol Chem. September 17, 2010; 285 (38): 29525-34.
	An in vitro reconstitution system for the assessment of chromatin protein fluidity during Xenopus development., Aoki R, Inui M, Hayashi Y, Sedohara A, Okabayashi K, Ohnuma K, Murata M, Asashima M., Biochem Biophys Res Commun. September 17, 2010; 400 (2): 200-6.
	Retinal patterning by Pax6-dependent cell adhesion molecules., Rungger-Brändle E, Ripperger JA, Steiner K, Conti A, Stieger A, Soltanieh S, Rungger D., Dev Neurobiol. September 15, 2010; 70 (11): 764-80.
	Serotonin 2B receptor signaling is required for craniofacial morphogenesis and jaw joint formation in Xenopus., Reisoli E, De Lucchini S, Nardi I, Ori M., Development. September 1, 2010; 137 (17): 2927-37.
	xGit2 and xRhoGAP 11A regulate convergent extension and tissue separation in Xenopus gastrulation., Köster I, Jungwirth MS, Steinbeisser H., Dev Biol. August 1, 2010; 344 (1): 26-35.
	Conserved and novel roles for the Gsh2 transcription factor in primary neurogenesis., Winterbottom EF, Illes JC, Faas L, Isaacs HV., Development. August 1, 2010; 137 (16): 2623-31.
	Regulation of vertebrate embryogenesis by the exon junction complex core component Eif4a3., Haremaki T, Sridharan J, Dvora S, Weinstein DC., Dev Dyn. July 1, 2010; 239 (7): 1977-87.
	MID1 and MID2 are required for Xenopus neural tube closure through the regulation of microtubule organization., Suzuki M, Hara Y, Takagi C, Yamamoto TS, Ueno N., Development. July 1, 2010; 137 (14): 2329-39.
	Xclaudin 1 is required for the proper gastrulation in Xenopus laevis., Chang DJ, Hwang YS, Cha SW, Chae JP, Hwang SH, Hahn JH, Bae YC, Lee HS, Lee HS, Park MJ., Biochem Biophys Res Commun. June 18, 2010; 397 (1): 75-81.
	Expression analysis of Runx3 and other Runx family members during Xenopus development., Park BY, Saint-Jeannet JP., Gene Expr Patterns. June 1, 2010; 10 (4-5): 159-66.

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