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Summary Expression Phenotypes Gene Literature (61) GO Terms (15) Nucleotides (290) Proteins (46) Interactants (477) Wiki
XB-GENEPAGE-481799

Papers associated with elavl1



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Gene Structure Analysis of Chemokines and Their Receptors in Allotetraploid Frog, Xenopus laevis., Fukui A, Matsunami M., Front Genet. November 25, 2021; 12 787979.            

A systemic cell cycle block impacts stage-specific histone modification profiles during Xenopus embryogenesis., Pokrovsky D, Forné I, Straub T, Imhof A, Rupp RAW., PLoS Biol. September 1, 2021; 19 (9): e3001377.                        

The Role of RNA-Binding Proteins in Vertebrate Neural Crest and Craniofacial Development., Forman TE, Dennison BJC, Fantauzzo KA., J Dev Biol. August 27, 2021; 9 (3):   

H4K20 Methylation Is Differently Regulated by Dilution and Demethylation in Proliferating and Cell-Cycle-Arrested Xenopus Embryos., Schuh L, Loos C, Pokrovsky D, Imhof A, Rupp RAW, Marr C., Cell Syst. December 16, 2020; 11 (6): 653-662.e8.          

miR-199 plays both positive and negative regulatory roles in Xenopus eye development., Ritter RA, Ulrich CH, Brzezinska BN, Shah VV, Zamora MJ, Kelly LE, El-Hodiri HM, Sater AK., Genesis. March 1, 2020; 58 (3-4): e23354.                        

Receptor-specific interactome as a hub for rapid cue-induced selective translation in axons., Koppers M, Cagnetta R, Shigeoka T, Wunderlich LC, Vallejo-Ramirez P, Qiaojin Lin J, Zhao S, Jakobs MA, Dwivedy A, Minett MS, Bellon A, Kaminski CF, Harris WA, Flanagan JG, Holt CE., Elife. November 20, 2019; 8                       

Electrophysiological Changes During Early Steps of Retinitis Pigmentosa., Bocchero U, Tam BM, Chiu CN, Torre V, Moritz OL., Invest Ophthalmol Vis Sci. March 1, 2019; 60 (4): 933-943.              

Rapid changes in tissue mechanics regulate cell behaviour in the developing embryonic brain., Thompson AJ, Pillai EK, Dimov IB, Foster SK, Holt CE, Franze K., Elife. January 15, 2019; 8                     

Multiscale analysis of architecture, cell size and the cell cortex reveals cortical F-actin density and composition are major contributors to mechanical properties during convergent extension., Shawky JH, Balakrishnan UL, Stuckenholz C, Davidson LA, Davidson LA., Development. October 5, 2018; 145 (19):                               

NMDA Receptor Signaling Is Important for Neural Tube Formation and for Preventing Antiepileptic Drug-Induced Neural Tube Defects., Sequerra EB, Goyal R, Castro PA, Levin JB, Borodinsky LN., J Neurosci. May 16, 2018; 38 (20): 4762-4773.          

Phosphorylation Dynamics Dominate the Regulated Proteome during Early Xenopus Development., Peuchen EH, Cox OF, Sun L, Hebert AS, Coon JJ, Champion MM, Dovichi NJ, Huber PW., Sci Rep. November 15, 2017; 7 (1): 15647.                          

A novel role for Celf1 in vegetal RNA localization during Xenopus oogenesis., Bauermeister D, Claußen M, Pieler T., Dev Biol. September 15, 2015; 405 (2): 214-24.            

Functional analysis of Hairy genes in Xenopus neural crest initial specification and cell migration., Vega-López GA, Bonano M, Tríbulo C, Fernández JP, Agüero TH, Aybar MJ, Aybar MJ., Dev Dyn. August 1, 2015; 244 (8): 988-1013.                            

Developmental expression and role of Kinesin Eg5 during Xenopus laevis embryogenesis., Fernández JP, Agüero TH, Vega López GA, Marranzino G, Cerrizuela S, Aybar MJ., Dev Dyn. April 1, 2014; 243 (4): 527-40.              

Loss of Xenopus cadherin-11 leads to increased Wnt/β-catenin signaling and up-regulation of target genes c-myc and cyclin D1 in neural crest., Koehler A, Schlupf J, Schneider M, Kraft B, Winter C, Kashef J., Dev Biol. November 1, 2013; 383 (1): 132-45.                        

Regulation of neurogenesis by Fgf8a requires Cdc42 signaling and a novel Cdc42 effector protein., Hulstrand AM, Houston DW., Dev Biol. October 15, 2013; 382 (2): 385-99.                              

Regulation of G-protein signaling via Gnas is required to regulate proximal tubular growth in the Xenopus pronephros., Zhang B, Romaker D, Ferrell N, Wessely O., Dev Biol. April 1, 2013; 376 (1): 31-42.                        

Cell movements of the deep layer of non-neural ectoderm underlie complete neural tube closure in Xenopus., Morita H, Kajiura-Kobayashi H, Takagi C, Yamamoto TS, Nonaka S, Ueno N., Development. April 1, 2012; 139 (8): 1417-26.                        

Lhx1 is required for specification of the renal progenitor cell field., Cirio MC, Hui Z, Haldin CE, Cosentino CC, Stuckenholz C, Chen X, Hong SK, Dawid IB, Hukriede NA., PLoS One. April 15, 2011; 6 (4): e18858.                          

Elr-type proteins protect Xenopus Dead end mRNA from miR-18-mediated clearance in the soma., Koebernick K, Loeber J, Arthur PK, Tarbashevich K, Pieler T., Proc Natl Acad Sci U S A. September 14, 2010; 107 (37): 16148-53.              

Cold-inducible RNA-binding protein contributes to human antigen R and cyclin E1 deregulation in breast cancer., Guo X, Wu Y, Hartley RS., Mol Carcinog. February 1, 2010; 49 (2): 130-40.

MicroRNAs couple cell fate and developmental timing in retina., Decembrini S, Bressan D, Vignali R, Pitto L, Mariotti S, Rainaldi G, Wang X, Evangelista M, Barsacchi G, Cremisi F., Proc Natl Acad Sci U S A. December 15, 2009; 106 (50): 21179-84.          

Normal levels of p27 are necessary for somite segmentation and determining pronephric organ size., Naylor RW, Collins RJ, Philpott A, Jones EA., Organogenesis. October 1, 2009; 5 (4): 201-10.                                          

The Elav-like protein HuR exerts translational control of viral internal ribosome entry sites., Rivas-Aravena A, Ramdohr P, Vallejos M, Valiente-Echeverría F, Dormoy-Raclet V, Rodríguez F, Pino K, Holzmann C, Huidobro-Toro JP, Gallouzi IE, López-Lastra M., Virology. September 30, 2009; 392 (2): 178-85.

Xhairy2 functions in Xenopus lens development by regulating p27(xic1) expression., Murato Y, Hashimoto C., Dev Dyn. September 1, 2009; 238 (9): 2179-92.              

Participation of Xenopus Elr-type proteins in vegetal mRNA localization during oogenesis., Arthur PK, Claussen M, Koch S, Tarbashevich K, Jahn O, Pieler T., J Biol Chem. July 24, 2009; 284 (30): 19982-92.  

ElrA and AUF1 differentially bind cyclin B2 mRNA., Guo X, Gourronc F, Audic Y, Lyons-Levy G, Mitchell T, Hartley RS., Biochem Biophys Res Commun. December 12, 2008; 377 (2): 653-657.

Cardiac differentiation in Xenopus requires the cyclin-dependent kinase inhibitor, p27Xic1., Movassagh M, Philpott A., Cardiovasc Res. August 1, 2008; 79 (3): 436-47.                                

The small GTPase RhoV is an essential regulator of neural crest induction in Xenopus., Guémar L, de Santa Barbara P, Vignal E, Maurel B, Fort P, Faure S., Dev Biol. October 1, 2007; 310 (1): 113-28.            

ElrA binding to the 3'UTR of cyclin E1 mRNA requires polyadenylation elements., Slevin MK, Gourronc F, Hartley RS., Nucleic Acids Res. January 1, 2007; 35 (7): 2167-76.              

RAP55, a cytoplasmic mRNP component, represses translation in Xenopus oocytes., Tanaka KJ, Ogawa K, Takagi M, Imamoto N, Matsumoto K, Tsujimoto M., J Biol Chem. December 29, 2006; 281 (52): 40096-106.                

Xenopus ElrB, but not ElrA, binds RNA as an oligomer: possible role of the linker., Devaux A, Colegrove-Otero LJ, Standart N., FEBS Lett. September 4, 2006; 580 (20): 4947-52.

Timing the generation of distinct retinal cells by homeobox proteins., Decembrini S, Andreazzoli M, Vignali R, Barsacchi G, Cremisi F., PLoS Biol. September 1, 2006; 4 (9): e272.                          

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.                

The Xenopus ELAV protein ElrB represses Vg1 mRNA translation during oogenesis., Colegrove-Otero LJ, Devaux A, Standart N., Mol Cell Biol. October 1, 2005; 25 (20): 9028-39.

XNGNR1-dependent neurogenesis mediates early neural cell death., Yeo W, Gautier J., Mech Dev. May 1, 2005; 122 (5): 635-44.        

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.              

Pontin and Reptin regulate cell proliferation in early Xenopus embryos in collaboration with c-Myc and Miz-1., Etard C, Gradl D, Kunz M, Eilers M, Wedlich D., Mech Dev. April 1, 2005; 122 (4): 545-56.                    

Olfactory and lens placode formation is controlled by the hedgehog-interacting protein (Xhip) in Xenopus., Cornesse Y, Pieler T, Hollemann T., Dev Biol. January 15, 2005; 277 (2): 296-315.                          

Xenopus cold-inducible RNA-binding protein 2 interacts with ElrA, the Xenopus homolog of HuR, and inhibits deadenylation of specific mRNAs., Aoki K, Matsumoto K, Tsujimoto M., J Biol Chem. November 28, 2003; 278 (48): 48491-7.

Xrx1 controls proliferation and neurogenesis in Xenopus anterior neural plate., Andreazzoli M, Gestri G, Cremisi F, Casarosa S, Dawid IB, Barsacchi G., Development. November 1, 2003; 130 (21): 5143-54.              

Snail precedes slug in the genetic cascade required for the specification and migration of the Xenopus neural crest., Aybar MJ, Aybar MJ, Nieto MA, Mayor R., Development. February 1, 2003; 130 (3): 483-94.                

A single cdk inhibitor, p27Xic1, functions beyond cell cycle regulation to promote muscle differentiation in Xenopus., Vernon AE, Philpott A., Development. January 1, 2003; 130 (1): 71-83.            

Xath5 regulates neurogenesis in the Xenopus olfactory placode., Burns CJ, Vetter ML., Dev Dyn. December 1, 2002; 225 (4): 536-43.        

Tumorhead, a Xenopus gene product that inhibits neural differentiation through regulation of proliferation., Wu CF, Nakamura H, Chan AP, Zhou YH, Cao T, Kuang J, Gong SG, He G, Etkin LD., Development. September 1, 2001; 128 (17): 3381-93.                

foxD5a, a Xenopus winged helix gene, maintains an immature neural ectoderm via transcriptional repression that is dependent on the C-terminal domain., Sullivan SA, Akers L, Moody SA., Dev Biol. April 15, 2001; 232 (2): 439-57.            

CPEB, maskin, and cyclin B1 mRNA at the mitotic apparatus: implications for local translational control of cell division., Groisman I, Huang YS, Mendez R, Cao Q, Theurkauf W, Richter JD., Cell. October 27, 2000; 103 (3): 435-47.        

Distinct effects of XBF-1 in regulating the cell cycle inhibitor p27(XIC1) and imparting a neural fate., Hardcastle Z, Papalopulu N., Development. March 1, 2000; 127 (6): 1303-14.                  

Reduction in cell size during development of the spinal cord., Chen A, Ekman JM, Heathcote RD., J Comp Neurol. July 12, 1999; 409 (4): 592-602.  

Cytochalasin B inhibits morphogenetic movement and muscle differentiation of activin-treated ectoderm in Xenopus., Tamai K, Yokota C, Ariizumi T, Asashima M., Dev Growth Differ. February 1, 1999; 41 (1): 41-9.            

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