Papers associated with lateral (and nog)

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	R-Spondin 2 governs Xenopus left-right body axis formation by establishing an FGF signaling gradient., Lee H, Lee H., Nat Commun. February 2, 2024; 15 (1): 1003.
	The early dorsal signal in vertebrate embryos requires endolysosomal membrane trafficking., Azbazdar Y., Bioessays. January 1, 2024; 46 (1): e2300179.
	The heparan sulfate modification enzyme, Hs6st1, governs Xenopus neuroectodermal patterning by regulating distributions of Fgf and Noggin., Yamamoto T., Dev Biol. April 1, 2023; 496 87-94.
	Normal Table of Xenopus development: a new graphical resource., Zahn N., Development. July 15, 2022; 149 (14):
	ccr7 affects both morphogenesis and differentiation during early Xenopus embryogenesis., Goto T., Dev Growth Differ. June 1, 2022; 64 (5): 254-260.
	Systematic mapping of rRNA 2'-O methylation during frog development and involvement of the methyltransferase Fibrillarin in eye and craniofacial development in Xenopus laevis., Delhermite J., PLoS Genet. January 18, 2022; 18 (1): e1010012.
	Targeted search for scaling genes reveals matrixmetalloproteinase 3 as a scaler of the dorsal-ventral pattern in Xenopus laevis embryos., Orlov EE., Dev Cell. January 10, 2022; 57 (1): 95-111.e12.
	Rab7 is required for mesoderm patterning and gastrulation in Xenopus., Kreis J., Biol Open. July 15, 2021; 10 (7):
	BMP signaling is enhanced intracellularly by FHL3 controlling WNT-dependent spatiotemporal emergence of the neural crest., Alkobtawi M., Cell Rep. June 22, 2021; 35 (12): 109289.
	Secreted inhibitors drive the loss of regeneration competence in Xenopus limbs., Aztekin C., Development. June 1, 2021; 148 (11):
	Dact-4 is a Xenopus laevis Spemann organizer gene related to the Dapper/Frodo antagonist of β-catenin family of proteins., Colozza G., Gene Expr Patterns. December 1, 2020; 38 119153.
	TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M., Elife. September 14, 2020; 9
	Natural size variation among embryos leads to the corresponding scaling in gene expression., Leibovich A., Dev Biol. June 15, 2020; 462 (2): 165-179.
	The secreted BMP antagonist ERFE is required for the development of a functional circulatory system in Xenopus., Melchert J., Dev Biol. March 15, 2020; 459 (2): 138-148.
	The tumor suppressor PTPRK promotes ZNRF3 internalization and is required for Wnt inhibition in the Spemann organizer., Chang LS., Elife. January 14, 2020; 9
	Modeling Bainbridge-Ropers Syndrome in Xenopus laevis Embryos., Lichtig H., Front Physiol. January 1, 2020; 11 75.
	Pinhead signaling regulates mesoderm heterogeneity via FGF receptor-dependent pathway., Ossipova O., Development. January 1, 2020;
	Cdc2-like kinase 2 (Clk2) promotes early neural development in Xenopus embryos., Virgirinia RP., Dev Growth Differ. August 1, 2019; 61 (6): 365-377.
	Nucleotide receptor P2RY4 is required for head formation via induction and maintenance of head organizer in Xenopus laevis., Harata A., Dev Growth Differ. February 1, 2019; 61 (2): 186-197.
	The b-HLH transcription factor Hes3 participates in neural plate border formation by interfering with Wnt/β-catenin signaling., Hong CS., Dev Biol. October 1, 2018; 442 (1): 162-172.
	Dkk2 promotes neural crest specification by activating Wnt/β-catenin signaling in a GSK3β independent manner., Devotta A., Elife. July 23, 2018; 7
	Transcriptomics of dorso-ventral axis determination in Xenopus tropicalis., Monteiro RS., Dev Biol. July 15, 2018; 439 (2): 69-79.
	Pitx1 regulates cement gland development in Xenopus laevis through activation of transcriptional targets and inhibition of BMP signaling., Jin Y., Dev Biol. May 1, 2018; 437 (1): 41-49.
	Timing is everything: Reiterative Wnt, BMP and RA signaling regulate developmental competence during endoderm organogenesis., Rankin SA, Rankin SA., Dev Biol. February 1, 2018; 434 (1): 121-132.
	RAPGEF5 Regulates Nuclear Translocation of β-Catenin., Griffin JN., Dev Cell. January 22, 2018; 44 (2): 248-260.e4.
	ADMP controls the size of Spemann's organizer through a network of self-regulating expansion-restriction signals., Leibovich A., BMC Biol. January 22, 2018; 16 (1): 13.
	Anosmin-1 is essential for neural crest and cranial placodes formation in Xenopus., Bae CJ., Biochem Biophys Res Commun. January 15, 2018; 495 (3): 2257-2263.
	Znf703, a novel target of Pax3 and Zic1, regulates hindbrain and neural crest development in Xenopus., Hong CS., Genesis. December 1, 2017; 55 (12):
	Vestigial-like 3 is a novel Ets1 interacting partner and regulates trigeminal nerve formation and cranial neural crest migration., Simon E., Biol Open. October 15, 2017; 6 (10): 1528-1540.
	KDM3A-mediated demethylation of histone H3 lysine 9 facilitates the chromatin binding of Neurog2 during neurogenesis., Lin H., Development. October 15, 2017; 144 (20): 3674-3685.
	Angiopoietin-like 4 Is a Wnt Signaling Antagonist that Promotes LRP6 Turnover., Kirsch N., Dev Cell. October 9, 2017; 43 (1): 71-82.e6.
	Nodal/Activin Pathway is a Conserved Neural Induction Signal in Chordates., Le Petillon Y., Nat Ecol Evol. August 1, 2017; 1 (8): 1192-1200.
	Lineage commitment of embryonic cells involves MEK1-dependent clearance of pluripotency regulator Ventx2., Scerbo P., Elife. June 27, 2017; 6
	Genome-wide analysis of dorsal and ventral transcriptomes of the Xenopus laevis gastrula., Ding Y., Dev Biol. June 15, 2017; 426 (2): 176-187.
	Noggin is required for first pharyngeal arch differentiation in the frog Xenopus tropicalis., Young JJ., Dev Biol. June 15, 2017; 426 (2): 245-254.
	A catalog of Xenopus tropicalis transcription factors and their regional expression in the early gastrula stage embryo., Blitz IL., Dev Biol. June 15, 2017; 426 (2): 409-417.
	Dissecting BMP signaling input into the gene regulatory networks driving specification of the blood stem cell lineage., Kirmizitas A., Proc Natl Acad Sci U S A. June 6, 2017; 114 (23): 5814-5821.
	Brg1 chromatin remodeling ATPase balances germ layer patterning by amplifying the transcriptional burst at midblastula transition., Wagner G., PLoS Genet. May 12, 2017; 13 (5): e1006757.
	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.
	Tbx2 regulates anterior neural specification by repressing FGF signaling pathway., Cho GS., Dev Biol. January 15, 2017; 421 (2): 183-193.
	FoxD1 protein interacts with Wnt and BMP signaling to differentially pattern mesoderm and neural tissue., Polevoy H., Int J Dev Biol. January 1, 2017; 61 (3-4-5): 293-302.
	Hedgehog-dependent E3-ligase Midline1 regulates ubiquitin-mediated proteasomal degradation of Pax6 during visual system development., Pfirrmann T., Proc Natl Acad Sci U S A. September 6, 2016; 113 (36): 10103-8.
	The positive transcriptional elongation factor (P-TEFb) is required for neural crest specification., Hatch VL., Dev Biol. August 15, 2016; 416 (2): 361-72.
	Sf3b4-depleted Xenopus embryos: A model to study the pathogenesis of craniofacial defects in Nager syndrome., Devotta A., Dev Biol. July 15, 2016; 415 (2): 371-382.
	Tissue- and stage-specific Wnt target gene expression is controlled subsequent to β-catenin recruitment to cis-regulatory modules., Nakamura Y., Development. June 1, 2016; 143 (11): 1914-25.
	Identifying domains of EFHC1 involved in ciliary localization, ciliogenesis, and the regulation of Wnt signaling., Zhao Y., Dev Biol. March 15, 2016; 411 (2): 257-265.
	A novel role for Ascl1 in the regulation of mesendoderm formation via HDAC-dependent antagonism of VegT., Gao L., Development. February 1, 2016; 143 (3): 492-503.
	Prdm12 specifies V1 interneurons through cross-repressive interactions with Dbx1 and Nkx6 genes in Xenopus., Thélie A., Development. October 1, 2015; 142 (19): 3416-28.
	Notum is required for neural and head induction via Wnt deacylation, oxidation, and inactivation., Zhang X., Dev Cell. March 23, 2015; 32 (6): 719-30.
	Biological and biochemical properties of two Xenopus laevis N-acetylgalactosaminyltransferases with contrasting roles in embryogenesis., Voglmeir J., Comp Biochem Physiol B Biochem Mol Biol. February 1, 2015; 180 40-7.

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