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Summary Expression Phenotypes Gene Literature (113) GO Terms (3) Nucleotides (81) Proteins (35) Interactants (680) Wiki
XB-GENEPAGE-491451

Papers associated with neurog1



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Six3 functions in anterior neural plate specification by promoting cell proliferation and inhibiting Bmp4 expression., Gestri G, Carl M, Appolloni I, Wilson SW, Barsacchi G, Andreazzoli M., Development. May 1, 2005; 132 (10): 2401-13.              

Cooperative requirement of the Gli proteins in neurogenesis., Nguyen V, Chokas AL, Stecca B, Ruiz i Altaba A., Development. July 1, 2005; 132 (14): 3267-79.                      

Geminin regulates neuronal differentiation by antagonizing Brg1 activity., Seo S, Herr A, Lim JW, Richardson GA, Richardson H, Kroll KL., Genes Dev. July 15, 2005; 19 (14): 1723-34.      

The doublesex-related gene, XDmrt4, is required for neurogenesis in the olfactory system., Huang X, Hong CS, O'Donnell M, Saint-Jeannet JP., Proc Natl Acad Sci U S A. August 9, 2005; 102 (32): 11349-54.                        

Secondary neurogenesis in the brain of the African clawed frog, Xenopus laevis, as revealed by PCNA, Delta-1, Neurogenin-related-1, and NeuroD expression., Wullimann MF, Rink E, Vernier P, Schlosser G., J Comp Neurol. August 29, 2005; 489 (3): 387-402.

The Ca2+-induced methyltransferase xPRMT1b controls neural fate in amphibian embryo., Batut J, Vandel L, Leclerc C, Daguzan C, Moreau M, Néant I., Proc Natl Acad Sci U S A. October 18, 2005; 102 (42): 15128-33.                

Hairy is a cell context signal controlling Notch activity., Cui Y., Dev Growth Differ. December 1, 2005; 47 (9): 609-25.                

Notch in the pathway: the roles of Notch signaling in neural crest development., Cornell RA, Eisen JS., Semin Cell Dev Biol. December 1, 2005; 16 (6): 663-72.

Noelins modulate the timing of neuronal differentiation during development., Moreno TA, Bronner-Fraser M., Dev Biol. December 15, 2005; 288 (2): 434-47.              

A phylotypic stage in vertebrate brain development: GABA cell patterns in zebrafish compared with mouse., Mueller T, Vernier P, Wullimann MF., J Comp Neurol. February 1, 2006; 494 (4): 620-34.

Mxi1 is essential for neurogenesis in Xenopus and acts by bridging the pan-neural and proneural genes., Klisch TJ, Souopgui J, Juergens K, Rust B, Pieler T, Henningfeld KA., Dev Biol. April 15, 2006; 292 (2): 470-85.                

Notch targets the Cdk inhibitor Xic1 to regulate differentiation but not the cell cycle in neurons., Vernon AE, Movassagh M, Horan I, Wise H, Ohnuma S, Philpott A., EMBO Rep. June 1, 2006; 7 (6): 643-8.

Mutant neurogenin-3 in congenital malabsorptive diarrhea., Wang J, Cortina G, Wu SV, Tran R, Cho JH, Tsai MJ, Bailey TJ, Jamrich M, Ament ME, Treem WR, Hill ID, Vargas JH, Gershman G, Farmer DG, Reyen L, Martín MG., N Engl J Med. July 20, 2006; 355 (3): 270-80.

Neural induction in Xenopus requires inhibition of Wnt-beta-catenin signaling., Heeg-Truesdell E, LaBonne C., Dev Biol. October 1, 2006; 298 (1): 71-86.                    

Activity-dependent neurotransmitter-receptor matching at the neuromuscular junction., Borodinsky LN, Spitzer NC., Proc Natl Acad Sci U S A. January 2, 2007; 104 (1): 335-40.                  

Alterations of rx1 and pax6 expression levels at neural plate stages differentially affect the production of retinal cell types and maintenance of retinal stem cell qualities., Zaghloul NA, Moody SA., Dev Biol. June 1, 2007; 306 (1): 222-40.                      

Regulation of neurogenin stability by ubiquitin-mediated proteolysis., Vosper JM, Fiore-Heriche CS, Horan I, Wilson K, Wise H, Philpott A., Biochem J. October 15, 2007; 407 (2): 277-84.

Neurogenin and NeuroD direct transcriptional targets and their regulatory enhancers., Seo S, Lim JW, Yellajoshyula D, Chang LW, Kroll KL., EMBO J. December 12, 2007; 26 (24): 5093-108.  

Xenopus zinc finger transcription factor IA1 (Insm1) expression marks anteroventral noradrenergic neuron progenitors in Xenopus embryos., Parlier D, Ariza A, Christulia F, Genco F, Vanhomwegen J, Kricha S, Souopgui J, Bellefroid EJ., Dev Dyn. August 1, 2008; 237 (8): 2147-57.          

Sponge genes provide new insight into the evolutionary origin of the neurogenic circuit., Richards GS, Simionato E, Perron M, Adamska M, Vervoort M, Degnan BM., Curr Biol. August 5, 2008; 18 (15): 1156-61.      

Xenopus Sox3 activates sox2 and geminin and indirectly represses Xvent2 expression to induce neural progenitor formation at the expense of non-neural ectodermal derivatives., Rogers CD, Harafuji N, Archer T, Cunningham DD, Casey ES., Mech Dev. January 1, 2009; 126 (1-2): 42-55.        

Comparative expression analysis of the neurogenins in Xenopus tropicalis and Xenopus laevis., Nieber F, Pieler T, Henningfeld KA., Dev Dyn. February 1, 2009; 238 (2): 451-8.        

Remodeling of insulin producing beta-cells during Xenopus laevis metamorphosis., Mukhi S, Horb ME, Brown DD., Dev Biol. April 15, 2009; 328 (2): 384-91.          

In vitro organogenesis from undifferentiated cells in Xenopus., Asashima M, Ito Y, Chan T, Michiue T, Nakanishi M, Suzuki K, Hitachi K, Okabayashi K, Kondow A, Ariizumi T., Dev Dyn. June 1, 2009; 238 (6): 1309-20.                      

Ubiquitylation on canonical and non-canonical sites targets the transcription factor neurogenin for ubiquitin-mediated proteolysis., Vosper JM, McDowell GS, Hindley CJ, Fiore-Heriche CS, Kucerova R, Horan I, Philpott A., J Biol Chem. June 5, 2009; 284 (23): 15458-68.

Mechanisms driving neural crest induction and migration in the zebrafish and Xenopus laevis., Klymkowsky MW, Rossi CC, Artinger KB., Cell Adh Migr. January 1, 2010; 4 (4): 595-608.  

B1 SOX coordinate cell specification with patterning and morphogenesis in the early zebrafish embryo., Okuda Y, Ogura E, Kondoh H, Kamachi Y., PLoS Genet. May 6, 2010; 6 (5): e1000936.                

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.              

Geminin-deficient neural stem cells exhibit normal cell division and normal neurogenesis., Schultz KM, Banisadr G, Lastra RO, McGuire T, Kessler JA, Miller RJ, McGarry TJ., PLoS One. March 9, 2011; 6 (3): e17736.          

hnRNP K post-transcriptionally co-regulates multiple cytoskeletal genes needed for axonogenesis., Liu Y, Szaro BG., Development. July 1, 2011; 138 (14): 3079-90.                

Cell cycle-regulated multi-site phosphorylation of Neurogenin 2 coordinates cell cycling with differentiation during neurogenesis., Ali F, Hindley C, McDowell G, Deibler R, Jones A, Kirschner M, Guillemot F, Philpott A., Development. October 1, 2011; 138 (19): 4267-77.      

The homeobox leucine zipper gene Homez plays a role in Xenopus laevis neurogenesis., Ghimouz R, Bar I, Hanotel J, Minela B, Keruzore M, Thelie A, Bellefroid EJ., Biochem Biophys Res Commun. November 11, 2011; 415 (1): 11-6.            

Toward an unbiased evolutionary platform for unraveling Xenopus developmental gene networks., Beer R, Wagner F, Grishkevich V, Peshkin L, Yanai I., Genesis. March 1, 2012; 50 (3): 186-91.        

Transient expression of Ngn3 in Xenopus endoderm promotes early and ectopic development of pancreatic beta and delta cells., Oropeza D, Horb M., Genesis. March 1, 2012; 50 (3): 271-85.                        

Post-translational modification of Ngn2 differentially affects transcription of distinct targets to regulate the balance between progenitor maintenance and differentiation., Hindley C, Ali F, McDowell G, Cheng K, Jones A, Guillemot F, Philpott A., Development. May 1, 2012; 139 (10): 1718-23.      

Complex regulation controls Neurogenin3 proteolysis., Roark R, Itzhaki L, Philpott A., Biol Open. December 15, 2012; 1 (12): 1264-72.              

MRAS GTPase is a novel stemness marker that impacts mouse embryonic stem cell plasticity and Xenopus embryonic cell fate., Mathieu ME, Faucheux C, Saucourt C, Soulet F, Gauthereau X, Fédou S, Trouillas M, Thézé N, Thiébaud P, Boeuf H., Development. August 1, 2013; 140 (16): 3311-22.              

NumbL is essential for Xenopus primary neurogenesis., Nieber F, Hedderich M, Jahn O, Pieler T, Henningfeld KA., BMC Dev Biol. October 14, 2013; 13 36.                          

A genome-wide survey of maternal and embryonic transcripts during Xenopus tropicalis development., Paranjpe SS, Jacobi UG, van Heeringen SJ, Veenstra GJ., BMC Genomics. November 6, 2013; 14 762.              

The ETS transcription factor Etv1 mediates FGF signaling to initiate proneural gene expression during Xenopus laevis retinal development., Willardsen M, Hutcheson DA, Moore KB, Vetter ML., Mech Dev. February 1, 2014; 131 57-67.      

A nutrient-sensitive restriction point is active during retinal progenitor cell differentiation., Love NK, Keshavan N, Lewis R, Harris WA, Agathocleous M., Development. February 1, 2014; 141 (3): 697-706.                              

Complex domain interactions regulate stability and activity of closely related proneural transcription factors., McDowell GS, Hardwick LJ, Philpott A., Biochem Biophys Res Commun. August 8, 2014; 450 (4): 1283-90.        

Fezf2 promotes neuronal differentiation through localised activation of Wnt/β-catenin signalling during forebrain development., Zhang S, Li J, Lea R, Vleminckx K, Vleminckx K, Amaya E., Development. December 1, 2014; 141 (24): 4794-805.                            

aPKC phosphorylates p27Xic1, providing a mechanistic link between apicobasal polarity and cell-cycle control., Sabherwal N, Thuret R, Lea R, Stanley P, Papalopulu N., Dev Cell. December 8, 2014; 31 (5): 559-71.                          

Evolutionarily conserved role for SoxC genes in neural crest specification and neuronal differentiation., Uy BR, Simoes-Costa M, Koo DE, Sauka-Spengler T, Bronner ME., Dev Biol. January 15, 2015; 397 (2): 282-92.                    

Sox21 regulates the progression of neuronal differentiation in a dose-dependent manner., Whittington N, Cunningham D, Le TK, De Maria D, Silva EM., Dev Biol. January 15, 2015; 397 (2): 237-47.              

Hmga2 is required for neural crest cell specification in Xenopus laevis., Macrì S, Simula L, Pellarin I, Pegoraro S, Onorati M, Sgarra R, Manfioletti G, Vignali R., Dev Biol. March 1, 2016; 411 (1): 25-37.                                        

Tissue- and stage-specific Wnt target gene expression is controlled subsequent to β-catenin recruitment to cis-regulatory modules., Nakamura Y, de Paiva Alves E, Veenstra GJ, Hoppler S., Development. June 1, 2016; 143 (11): 1914-25.            

Dissecting the pre-placodal transcriptome to reveal presumptive direct targets of Six1 and Eya1 in cranial placodes., Riddiford N, Schlosser G., Elife. August 31, 2016; 5                                                                         

Dual roles of Akirin2 protein during Xenopus neural development., Liu X, Xia Y, Tang J, Ma L, Li C, Ma P, Mao B., J Biol Chem. April 7, 2017; 292 (14): 5676-5684.                            

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