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Summary Expression Phenotypes Gene Literature (29) GO Terms (11) Nucleotides (73) Proteins (43) Interactants (360) Wiki
XB-GENEPAGE-482218

Papers associated with nkx2-2



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6 paper(s) referencing morpholinos

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Ttc30a affects tubulin modifications in a model for ciliary chondrodysplasia with polycystic kidney disease., Getwan M, Hoppmann A, Schlosser P, Grand K, Song W, Diehl R, Schroda S, Heeg F, Deutsch K, Hildebrandt F, Lausch E, Köttgen A, Lienkamp SS., Proc Natl Acad Sci U S A. September 28, 2021; 118 (39):                                                   


A temporally resolved transcriptome for developing "Keller" explants of the Xenopus laevis dorsal marginal zone., Kakebeen AD, Huebner RJ, Shindo A, Kwon K, Kwon T, Wills AE, Wallingford JB., Dev Dyn. May 1, 2021; 250 (5): 717-731.              


Liver Specification in the Absence of Cardiac Differentiation Revealed by Differential Sensitivity to Wnt/β Catenin Pathway Activation., Haworth K, Samuel L, Black S, Kirilenko P, Latinkic B., Front Physiol. January 1, 2019; 10 155.              


Gene expression analysis of developing cell groups in the pretectal region of Xenopus laevis., Morona R, Ferran JL, Puelles L, González A., J Comp Neurol. March 1, 2017; 525 (4): 715-752.                                            


What we can learn from a tadpole about ciliopathies and airway diseases: Using systems biology in Xenopus to study cilia and mucociliary epithelia., Walentek P, Quigley IK., Genesis. January 1, 2017; 55 (1-2):       


Ciliary transcription factors and miRNAs precisely regulate Cp110 levels required for ciliary adhesions and ciliogenesis., Walentek P, Quigley IK, Sun DI, Sajjan UK, Kintner C, Harland RM., Elife. September 13, 2016; 5                                   


The ciliopathy-associated CPLANE proteins direct basal body recruitment of intraflagellar transport machinery., Toriyama M, Lee C, Taylor SP, Duran I, Cohn DH, Bruel AL, Tabler JM, Drew K, Kelly MR, Kim S, Park TJ, Braun DA, Pierquin G, Biver A, Wagner K, Malfroot A, Panigrahi I, Franco B, Al-Lami HA, Yeung Y, Choi YJ, University of Washington Center for Mendelian Genomics, Duffourd Y, Faivre L, Rivière JB, Chen J, Liu KJ, Liu KJ, Marcotte EM, Hildebrandt F, Thauvin-Robinet C, Krakow D, Jackson PK, Wallingford JB., Nat Genet. June 1, 2016; 48 (6): 648-56.                              


Xenopus as a model system for studying pancreatic development and diabetes., Kofent J, Spagnoli FM., Semin Cell Dev Biol. March 1, 2016; 51 106-16.  


Patterns of hypothalamic regionalization in amphibians and reptiles: common traits revealed by a genoarchitectonic approach., Domínguez L, González A, Moreno N., Front Neuroanat. February 3, 2015; 9 3.                


Prepatterning and patterning of the thalamus along embryonic development of Xenopus laevis., Bandín S, Morona R, González A., Front Neuroanat. February 3, 2015; 9 107.                                                    


Characterization of the hypothalamus of Xenopus laevis during development. II. The basal regions., Domínguez L, González A, Moreno N., J Comp Neurol. April 1, 2014; 522 (5): 1102-31.                                      


Gli protein activity is controlled by multisite phosphorylation in vertebrate Hedgehog signaling., Niewiadomski P, Kong JH, Ahrends R, Ma Y, Humke EW, Khan S, Teruel MN, Novitch BG, Rohatgi R., Cell Rep. January 16, 2014; 6 (1): 168-81.


Stabilization of speckle-type POZ protein (Spop) by Daz interacting protein 1 (Dzip1) is essential for Gli turnover and the proper output of Hedgehog signaling., Schwend T, Jin Z, Jiang K, Mitchell BJ, Jia J, Yang J., J Biol Chem. November 8, 2013; 288 (45): 32809-32820.                


Characterization of the hypothalamus of Xenopus laevis during development. I. The alar regions., Domínguez L, Morona R, González A, Moreno N., J Comp Neurol. March 1, 2013; 521 (4): 725-59.                                                  


Epigenetic conservation at gene regulatory elements revealed by non-methylated DNA profiling in seven vertebrates., Long HK, Sims D, Heger A, Blackledge NP, Kutter C, Wright ML, Grützner F, Odom DT, Patient R, Ponting CP, Klose RJ., Elife. February 26, 2013; 2 e00348.                  


Unraveling new roles for serotonin receptor 2B in development: key findings from Xenopus., Ori M, De Lucchini S, Marras G, Nardi I., Int J Dev Biol. January 1, 2013; 57 (9-10): 707-14.          


Live imaging of targeted cell ablation in Xenopus: a new model to study demyelination and repair., Kaya F, Mannioui A, Chesneau A, Sekizar S, Maillard E, Ballagny C, Houel-Renault L, Dupasquier D, Bronchain O, Holtzmann I, Desmazieres A, Thomas JL, Demeneix BA, Brophy PJ, Zalc B, Mazabraud A., J Neurosci. September 12, 2012; 32 (37): 12885-95.          


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.                              


Ontogenetic distribution of the transcription factor nkx2.2 in the developing forebrain of Xenopus laevis., Domínguez L, González A, Moreno N., Front Neuroanat. March 2, 2011; 5 11.            


Sonic hedgehog expression during Xenopus laevis forebrain development., Domínguez L, González A, Moreno N., Dev Biol. August 6, 2010; 1347 19-32.            


Activity-dependent expression of Lmx1b regulates specification of serotonergic neurons modulating swimming behavior., Demarque M, Spitzer NC., Neuron. July 29, 2010; 67 (2): 321-34.


The tetraspanin Tm4sf3 is localized to the ventral pancreas and regulates fusion of the dorsal and ventral pancreatic buds., Jarikji Z, Horb LD, Shariff F, Mandato CA, Cho KW, Horb ME., Development. June 1, 2009; 136 (11): 1791-800.                  


NeuroD1 in the endocrine pancreas: localization and dual function as an activator and repressor., Itkin-Ansari P, Marcora E, Geron I, Tyrberg B, Demeterco C, Hao E, Padilla C, Ratineau C, Leiter A, Lee JE, Lee JE, Levine F., Dev Dyn. July 1, 2005; 233 (3): 946-53.


The amino-terminal region of Gli3 antagonizes the Shh response and acts in dorsoventral fate specification in the developing spinal cord., Meyer NP, Roelink H., Dev Biol. May 15, 2003; 257 (2): 343-55.


The morphogen sonic hedgehog is an axonal chemoattractant that collaborates with netrin-1 in midline axon guidance., Charron F, Stein E, Jeong J, McMahon AP, Tessier-Lavigne M., Cell. April 4, 2003; 113 (1): 11-23.


Xnkx-2.1: a homeobox gene expressed during early forebrain, lung and thyroid development in Xenopus laevis., Hollemann T, Pieler T., Dev Genes Evol. November 1, 2000; 210 (11): 579-81.


FGF signaling and the anterior neural induction in Xenopus., Hongo I, Kengaku M, Okamoto H., Dev Biol. December 15, 1999; 216 (2): 561-81.                            


Pax6 controls progenitor cell identity and neuronal fate in response to graded Shh signaling., Ericson J, Rashbass P, Schedl A, Brenner-Morton S, Kawakami A, van Heyningen V, Jessell TM, Briscoe J., Cell. July 11, 1997; 90 (1): 169-80.


A Xenopus homebox gene defines dorsal-ventral domains in the developing brain., Saha MS, Michel RB, Gulding KM, Grainger RM., Development. May 1, 1993; 118 (1): 193-202.              

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