Papers associated with NF stage 14

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	FGFR3 expression in Xenopus laevis., Pope AP, Liu C, Sater AK, Servetnick M., Gene Expr Patterns. January 1, 2010; 10 (2-3): 87-92.
	A conserved MRF4 promoter drives transgenic expression in Xenopus embryonic somites and adult muscle., Hinterberger TJ., Int J Dev Biol. January 1, 2010; 54 (4): 617-25.
	BMP antagonists and FGF signaling contribute to different domains of the neural plate in Xenopus., Wills AE, Choi VM, Bennett MJ, Khokha MK, Harland RM., Dev Biol. January 15, 2010; 337 (2): 335-50.
	Delta-Notch signaling is involved in the segregation of the three germ layers in Xenopus laevis., Revinski DR, Paganelli AR, Carrasco AE, López SL., Dev Biol. March 15, 2010; 339 (2): 477-92.
	BCL6 canalizes Notch-dependent transcription, excluding Mastermind-like1 from selected target genes during left-right patterning., Sakano D, Kato A, Parikh N, McKnight K, Terry D, Stefanovic B, Kato Y., Dev Cell. March 16, 2010; 18 (3): 450-62.
	Xenopus skip modulates Wnt/beta-catenin signaling and functions in neural crest induction., Wang Y, Fu Y, Gao L, Zhu G, Liang J, Gao C, Huang B, Fenger U, Niehrs C, Chen YG, Chen YG, Wu W., J Biol Chem. April 2, 2010; 285 (14): 10890-901.
	Neural crest migration requires the activity of the extracellular sulphatases XtSulf1 and XtSulf2., Guiral EC, Faas L, Pownall ME., Dev Biol. May 15, 2010; 341 (2): 375-88.
	Polypyrimidine tract-binding protein is required for the repression of gene expression by all-trans retinoic acid., Tamanoue Y, Yamagishi M, Hongo I, Okamoto H., Dev Growth Differ. June 1, 2010; 52 (5): 469-79.
	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.
	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.
	PAR-1 promotes primary neurogenesis and asymmetric cell divisions via control of spindle orientation., Tabler JM, Yamanaka H, Green JB., Development. August 1, 2010; 137 (15): 2501-5.
	Oriented cell motility and division underlie early limb bud morphogenesis., Wyngaarden LA, Vogeli KM, Ciruna BG, Wells M, Hadjantonakis AK, Hopyan S., Development. August 1, 2010; 137 (15): 2551-8.
	Regulation of TCF3 by Wnt-dependent phosphorylation during vertebrate axis specification., Hikasa H, Ezan J, Itoh K, Li X, Klymkowsky MW, Sokol SY., Dev Cell. October 19, 2010; 19 (4): 521-32.
	The G-protein-coupled receptor, GPR84, is important for eye development in Xenopus laevis., Perry KJ, Johnson VR, Malloch EL, Fukui L, Wever J, Thomas AG, Hamilton PW, Henry JJ., Dev Dyn. November 1, 2010; 239 (11): 3024-37.
	Microarray identification of novel downstream targets of FoxD4L1/D5, a critical component of the neural ectodermal transcriptional network., Yan B, Neilson KM, Moody SA., Dev Dyn. December 1, 2010; 239 (12): 3467-80.
	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.
	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.
	Nkx6 genes pattern the frog neural plate and Nkx6.1 is necessary for motoneuron axon projection., Dichmann DS, Harland RM., Dev Biol. January 15, 2011; 349 (2): 378-86.
	Retinoic acid is a key regulatory switch determining the difference between lung and thyroid fates in Xenopus laevis., Wang JH, Deimling SJ, D'Alessandro NE, Zhao L, Possmayer F, Drysdale TA., BMC Dev Biol. January 26, 2011; 11 75.
	SNW1 is a critical regulator of spatial BMP activity, neural plate border formation, and neural crest specification in vertebrate embryos., Wu MY, Ramel MC, Howell M, Hill CS., PLoS Biol. February 15, 2011; 9 (2): e1000593.
	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.
	EBF factors drive expression of multiple classes of target genes governing neuronal development., Green YS, Vetter ML., Neural Dev. April 30, 2011; 6 19.
	Gsx transcription factors repress Iroquois gene expression., Winterbottom EF, Ramsbottom SA, Isaacs HV., Dev Dyn. June 1, 2011; 240 (6): 1422-9.
	Developmental expression of the fermitin/kindlin gene family in Xenopus laevis embryos., Canning CA, Chan JS, Common JE, Lane EB, Jones CM., Dev Dyn. August 1, 2011; 240 (8): 1958-63.
	V-ATPase-dependent ectodermal voltage and pH regionalization are required for craniofacial morphogenesis., Vandenberg LN, Morrie RD, Adams DS., Dev Dyn. August 1, 2011; 240 (8): 1889-904.
	Origin and segregation of cranial placodes in Xenopus laevis., Pieper M, Eagleson GW, Wosniok W, Schlosser G., Dev Biol. December 15, 2011; 360 (2): 257-75.
	A homolog of Subtilisin-like Proprotein Convertase 7 is essential to anterior neural development in Xenopus., Senturker S, Thomas JT, Mateshaytis J, Moos M., PLoS One. January 1, 2012; 7 (6): e39380.
	Identification and characterization of Xenopus kctd15, an ectodermal gene repressed by the FGF pathway., Takahashi C, Suzuki T, Nishida E, Kusakabe M., Int J Dev Biol. January 1, 2012; 56 (5): 393-402.
	Mef2d acts upstream of muscle identity genes and couples lateral myogenesis to dermomyotome formation in Xenopus laevis., Della Gaspera B, Armand AS, Lecolle S, Charbonnier F, Chanoine C., PLoS One. January 1, 2012; 7 (12): e52359.
	Xenopus Zic3 controls notochord and organizer development through suppression of the Wnt/β-catenin signaling pathway., Fujimi TJ, Hatayama M, Aruga J., Dev Biol. January 15, 2012; 361 (2): 220-31.
	The LIM adaptor protein LMO4 is an essential regulator of neural crest development., Ochoa SD, Salvador S, LaBonne C., Dev Biol. January 15, 2012; 361 (2): 313-25.
	ΔNp63 is regulated by BMP4 signaling and is required for early epidermal development in Xenopus., Tríbulo C, Guadalupe Barrionuevo M, Agüero TH, Sánchez SS, Calcaterra NB, Aybar MJ., Dev Dyn. February 1, 2012; 241 (2): 257-69.
	RFX2 is broadly required for ciliogenesis during vertebrate development., Chung MI, Peyrot SM, LeBoeuf S, Park TJ, McGary KL, Marcotte EM, Wallingford JB., Dev Biol. March 1, 2012; 363 (1): 155-65.
	Short chain dehydrogenase/reductase rdhe2 is a novel retinol dehydrogenase essential for frog embryonic development., Belyaeva OV, Lee SA, Adams MK, Chang C, Kedishvili NY., J Biol Chem. March 16, 2012; 287 (12): 9061-71.
	A hindbrain-repressive Wnt3a/Meis3/Tsh1 circuit promotes neuronal differentiation and coordinates tissue maturation., Elkouby YM, Polevoy H, Gutkovich YE, Michaelov A, Frank D., Development. April 1, 2012; 139 (8): 1487-97.
	Indian hedgehog signaling is required for proper formation, maintenance and migration of Xenopus neural crest., Agüero TH, Fernández JP, López GA, Tríbulo C, Aybar MJ., Dev Biol. April 15, 2012; 364 (2): 99-113.
	A developmental requirement for HIRA-dependent H3.3 deposition revealed at gastrulation in Xenopus., Szenker E, Lacoste N, Almouzni G., Cell Rep. June 28, 2012; 1 (6): 730-40.
	Mutual repression between Gbx2 and Otx2 in sensory placodes reveals a general mechanism for ectodermal patterning., Steventon B, Mayor R, Streit A., Dev Biol. July 1, 2012; 367 (1): 55-65.
	Rab11 regulates planar polarity and migratory behavior of multiciliated cells in Xenopus embryonic epidermis., Kim K, Lake BB, Haremaki T, Weinstein DC, Sokol SY., Dev Dyn. September 1, 2012; 241 (9): 1385-95.
	Pou-V factor Oct25 regulates early morphogenesis in Xenopus laevis., Julier A, Goll C, Korte B, Knöchel W, Wacker SA., Dev Growth Differ. September 1, 2012; 54 (7): 702-16.
	Defining progressive stages in the commitment process leading to embryonic lens formation., Jin H, Fisher M, Grainger RM., Genesis. October 1, 2012; 50 (10): 728-40.
	Current perspectives of the signaling pathways directing neural crest induction., Stuhlmiller TJ, García-Castro MI., Cell Mol Life Sci. November 1, 2012; 69 (22): 3715-37.
	Early transcriptional targets of MyoD link myogenesis and somitogenesis., Maguire RJ, Isaacs HV, Pownall ME., Dev Biol. November 15, 2012; 371 (2): 256-68.
	Tet3 CXXC domain and dioxygenase activity cooperatively regulate key genes for Xenopus eye and neural development., Xu Y, Xu Y, Xu C, Kato A, Tempel W, Abreu JG, Bian C, Hu Y, Hu D, Zhao B, Cerovina T, Diao J, Wu F, He HH, Cui Q, Clark E, Ma C, Barbara A, Veenstra GJ, Xu G, Kaiser UB, Liu XS, Sugrue SP, He X, Min J, Kato Y, Shi YG., Cell. December 7, 2012; 151 (6): 1200-13.
	The Xenopus doublesex-related gene Dmrt5 is required for olfactory placode neurogenesis., Parlier D, Moers V, Van Campenhout C, Preillon J, Leclère L, Saulnier A, Sirakov M, Busengdal H, Kricha S, Marine JC, Rentzsch F, Bellefroid EJ., Dev Biol. January 1, 2013; 373 (1): 39-52.
	An intact brachyury function is necessary to prevent spurious axial development in Xenopus laevis., Aguirre CE, Murgan S, Carrasco AE, López SL., PLoS One. January 1, 2013; 8 (1): e54777.
	Xnr3 affects brain patterning via cell migration in the neural-epidermal tissue boundary during early Xenopus embryogenesis., Morita M, Yamashita S, Matsukawa S, Haramoto Y, Takahashi S, Asashima M, Michiue T., Int J Dev Biol. January 1, 2013; 57 (9-10): 779-86.
	A functional genome-wide in vivo screen identifies new regulators of signalling pathways during early Xenopus embryogenesis., Zhang S, Li J, Lea R, Amaya E, Dorey K., PLoS One. January 1, 2013; 8 (11): e79469.
	Signaling and transcriptional regulation in neural crest specification and migration: lessons from xenopus embryos., Pegoraro C, Monsoro-Burq AH., Wiley Interdiscip Rev Dev Biol. January 1, 2013; 2 (2): 247-59.

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