Papers associated with cell part (and otx2)

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	ZSWIM4 regulates embryonic patterning and BMP signaling by promoting nuclear Smad1 degradation., Wang C., EMBO Rep. February 1, 2024; 25 (2): 646-671.
	TBC1D32 variants disrupt retinal ciliogenesis and cause retinitis pigmentosa., Bocquet B., JCI Insight. November 8, 2023; 8 (21):
	Proteomic screen reveals diverse protein transport between connected neurons in the visual system., Schiapparelli LM., Cell Rep. January 25, 2022; 38 (4): 110287.
	Furry is required for cell movements during gastrulation and functionally interacts with NDR1., Cervino AS., Sci Rep. March 23, 2021; 11 (1): 6607.
	Rab11fip5 regulates telencephalon development via ephrinB1 recycling., Yoon J., Development. February 2, 2021; 148 (3):
	Xenopus leads the way: Frogs as a pioneering model to understand the human brain., Exner CRT., Genesis. February 1, 2021; 59 (1-2): e23405.
	Foxd4l1.1 negatively regulates transcription of neural repressor ventx1.1 during neuroectoderm formation in Xenopus embryos., Kumar S, Kumar S., Sci Rep. October 8, 2020; 10 (1): 16780.
	TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis., Chen M., Elife. September 14, 2020; 9
	Interplay of TRIM2 E3 Ubiquitin Ligase and ALIX/ESCRT Complex: Control of Developmental Plasticity During Early Neurogenesis., Lokapally A., Cells. July 20, 2020; 9 (7):
	Six1 proteins with human branchio-oto-renal mutations differentially affect cranial gene expression and otic development., Shah AM., Dis Model Mech. March 3, 2020; 13 (3):
	The regulatory proteins DSCR6 and Ezh2 oppositely regulate Stat3 transcriptional activity in mesoderm patterning during Xenopus development., Loreti M., J Biol Chem. February 28, 2020; 295 (9): 2724-2735.
	The tumor suppressor PTPRK promotes ZNRF3 internalization and is required for Wnt inhibition in the Spemann organizer., Chang LS., Elife. January 14, 2020; 9
	MiR-9 and the Midbrain-Hindbrain Boundary: A Showcase for the Limited Functional Conservation and Regulatory Complexity of MicroRNAs., Alwin Prem Anand A., Front Cell Dev Biol. January 1, 2020; 8 586158.
	Single Amino Acid Change Underlies Distinct Roles of H2A.Z Subtypes in Human Syndrome., Greenberg RS., Cell. September 5, 2019; 178 (6): 1421-1436.e24.
	What are the roles of retinoids, other morphogens, and Hox genes in setting up the vertebrate body axis?, Durston AJ., Genesis. July 1, 2019; 57 (7-8): e23296.
	WDR5 regulates left-right patterning via chromatin-dependent and -independent functions., Kulkarni SS., Development. November 28, 2018; 145 (23):
	RAPGEF5 Regulates Nuclear Translocation of β-Catenin., Griffin JN., Dev Cell. January 22, 2018; 44 (2): 248-260.e4.
	A molecular atlas of the developing ectoderm defines neural, neural crest, placode, and nonneural progenitor identity in vertebrates., Plouhinec JL., PLoS Biol. October 19, 2017; 15 (10): e2004045.
	Identification of new regulators of embryonic patterning and morphogenesis in Xenopus gastrulae by RNA sequencing., Popov IK., Dev Biol. June 15, 2017; 426 (2): 429-441.
	The phosphatase Pgam5 antagonizes Wnt/β-Catenin signaling in embryonic anterior-posterior axis patterning., Rauschenberger V., Development. June 15, 2017; 144 (12): 2234-2247.
	Frizzled 3 acts upstream of Alcam during embryonic eye development., Seigfried FA., Dev Biol. June 1, 2017; 426 (1): 69-83.
	Cholesterol-rich membrane microdomains modulate Wnt/β-catenin morphogen gradient during Xenopus development., Reis AH., Mech Dev. November 1, 2016; 142 30-39.
	An Evolutionarily Conserved Network Mediates Development of the zona limitans intrathalamica, a Sonic Hedgehog-Secreting Caudal Forebrain Signaling Center., Sena E., J Dev Biol. October 20, 2016; 4 (4):
	Bioelectric signalling via potassium channels: a mechanism for craniofacial dysmorphogenesis in KCNJ2-associated Andersen-Tawil Syndrome., Adams DS., J Physiol. June 15, 2016; 594 (12): 3245-70.
	Noggin4 is a long-range inhibitor of Wnt8 signalling that regulates head development in Xenopus laevis., Eroshkin FM., Sci Rep. January 22, 2016; 6 23049.
	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.
	JmjC Domain-containing Protein 6 (Jmjd6) Derepresses the Transcriptional Repressor Transcription Factor 7-like 1 (Tcf7l1) and Is Required for Body Axis Patterning during Xenopus Embryogenesis., Zhang X., J Biol Chem. August 14, 2015; 290 (33): 20273-83.
	Xenopus Pkdcc1 and Pkdcc2 Are Two New Tyrosine Kinases Involved in the Regulation of JNK Dependent Wnt/PCP Signaling Pathway., Vitorino M., PLoS One. August 13, 2015; 10 (8): e0135504.
	Kdm2a/b Lysine Demethylases Regulate Canonical Wnt Signaling by Modulating the Stability of Nuclear β-Catenin., Lu L., Dev Cell. June 22, 2015; 33 (6): 660-74.
	Insulin-like factor regulates neural induction through an IGF1 receptor-independent mechanism., Haramoto Y., Sci Rep. January 12, 2015; 5 11603.
	Isoquercitrin suppresses colon cancer cell growth in vitro by targeting the Wnt/β-catenin signaling pathway., Amado NG., J Biol Chem. December 19, 2014; 289 (51): 35456-67.
	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.
	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.
	Sp8 regulates inner ear development., Chung HA., Proc Natl Acad Sci U S A. April 29, 2014; 111 (17): 6329-34.
	Wiring the retinal circuits activated by light during early development., Bertolesi GE., Neural Dev. February 13, 2014; 9 3.
	Cubilin, a high affinity receptor for fibroblast growth factor 8, is required for cell survival in the developing vertebrate head., Cases O., J Biol Chem. June 7, 2013; 288 (23): 16655-16670.
	Plasma membrane cholesterol depletion disrupts prechordal plate and affects early forebrain patterning., Reis AH., Dev Biol. May 15, 2012; 365 (2): 350-62.
	TAK1 promotes BMP4/Smad1 signaling via inhibition of erk MAPK: a new link in the FGF/BMP regulatory network., Liu C., Differentiation. April 1, 2012; 83 (4): 210-9.
	The forkhead transcription factor FoxB1 regulates the dorsal-ventral and anterior-posterior patterning of the ectoderm during early Xenopus embryogenesis., Takebayashi-Suzuki K., Dev Biol. December 1, 2011; 360 (1): 11-29.
	V-ATPase-dependent ectodermal voltage and pH regionalization are required for craniofacial morphogenesis., Vandenberg LN., Dev Dyn. August 1, 2011; 240 (8): 1889-904.
	Peter Pan functions independently of its role in ribosome biogenesis during early eye and craniofacial cartilage development in Xenopus laevis., Bugner V., Development. June 1, 2011; 138 (11): 2369-78.
	Notch destabilises maternal beta-catenin and restricts dorsal-anterior development in Xenopus., Acosta H., Development. June 1, 2011; 138 (12): 2567-79.
	Neuronatin promotes neural lineage in ESCs via Ca(2+) signaling., Lin HH., Stem Cells. November 1, 2010; 28 (11): 1950-60.
	Polypyrimidine tract-binding protein is required for the repression of gene expression by all-trans retinoic acid., Tamanoue Y., Dev Growth Differ. June 1, 2010; 52 (5): 469-79.
	Xenopus skip modulates Wnt/beta-catenin signaling and functions in neural crest induction., Wang Y., J Biol Chem. April 2, 2010; 285 (14): 10890-901.
	Zebrafish gbx1 refines the midbrain-hindbrain boundary border and mediates the Wnt8 posteriorization signal., Rhinn M., Neural Dev. April 2, 2009; 4 12.
	Modulation of the beta-catenin signaling pathway by the dishevelled-associated protein Hipk1., Louie SH., PLoS One. January 1, 2009; 4 (2): e4310.
	Expression study of cadherin7 and cadherin20 in the embryonic and adult rat central nervous system., Takahashi M., BMC Dev Biol. June 23, 2008; 8 87.
	Molecular links among the causative genes for ocular malformation: Otx2 and Sox2 coregulate Rax expression., Danno H., Proc Natl Acad Sci U S A. April 8, 2008; 105 (14): 5408-13.
	Silencing of Smed-betacatenin1 generates radial-like hypercephalized planarians., Iglesias M., Development. April 1, 2008; 135 (7): 1215-21.

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