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Summary Expression Phenotypes Gene Literature (88) GO Terms (4) Nucleotides (20011) Proteins (77) Interactants (1109) Wiki
XB-GENEPAGE-480093

Papers associated with eef1a1



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9 paper(s) referencing morpholinos

Results 1 - 50 of 88 results

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Transcriptome analysis of the response to thyroid hormone in Xenopus neural stem and progenitor cells., Cordero-Véliz C, Larraín J, Faunes F., Dev Dyn. February 1, 2023; 252 (2): 294-304.        

Xenopus Dusp6 modulates FGF signaling to precisely pattern pre-placodal ectoderm., Tsukano K, Yamamoto T, Watanabe T, Michiue T., Dev Biol. August 1, 2022; 488 81-90.                          

The Cytoskeletal Protein Zyxin Inhibits Retinoic Acid Signaling by Destabilizing the Maternal mRNA of the RXRγ Nuclear Receptor., Parshina EA, Orlov EE, Zaraisky AG, Martynova NY., Int J Mol Sci. May 17, 2022; 23 (10):                 

Goosecoid Controls Neuroectoderm Specification via Dual Circuits of Direct Repression and Indirect Stimulation in Xenopus Embryos., Umair Z, Kumar V, Goutam RS, Kumar S, Kumar S, Lee U, Kim J., Mol Cells. October 31, 2021; 44 (10): 723-735.          

Tissue disaggregation and isolation of specific cell types from transgenic Xenopus appendages for transcriptional analysis by FACS., Kakebeen AD, Chitsazan AD, Wills AE., Dev Dyn. September 1, 2021; 250 (9): 1381-1392.

Temporal transcriptomic profiling reveals dynamic changes in gene expression of Xenopus animal cap upon activin treatment., Satou-Kobayashi Y, Kim JD, Fukamizu A, Asashima M., Sci Rep. July 15, 2021; 11 (1): 14537.          

Rspo2 inhibits TCF3 phosphorylation to antagonize Wnt signaling during vertebrate anteroposterior axis specification., Reis AH, Sokol SY., Sci Rep. June 28, 2021; 11 (1): 13433.            

The Secreted Protein Disulfide Isomerase Ag1 Lost by Ancestors of Poorly Regenerating Vertebrates Is Required for Xenopus laevis Tail Regeneration., Ivanova AS, Tereshina MB, Araslanova KR, Martynova NY, Zaraisky AG., Front Cell Dev Biol. March 26, 2021; 9 738940.                  

Rspo2 antagonizes FGF signaling during vertebrate mesoderm formation and patterning., Reis AH, Sokol SY., Development. May 27, 2020; 147 (10):                   

Integration of Wnt and FGF signaling in the Xenopus gastrula at TCF and Ets binding sites shows the importance of short-range repression by TCF in patterning the marginal zone., Kjolby RAS, Truchado-Garcia M, Iruvanti S, Harland RM., Development. August 9, 2019; 146 (15):                           

Endodermal Maternal Transcription Factors Establish Super-Enhancers during Zygotic Genome Activation., Paraiso KD, Blitz IL, Coley M, Cheung J, Sudou N, Taira M, Cho KWY., Cell Rep. June 4, 2019; 27 (10): 2962-2977.e5.                          

Reference Gene Validation for Quantitative Real-time PCR Studies in Amphibian Kidney-derived A6 Epithelial Cells., Verbrugghe E, Martel A, Pasmans F., Altern Lab Anim. May 1, 2019; 47 (2): 63-70.

Fam46a regulates BMP-dependent pre-placodal ectoderm differentiation in Xenopus., Watanabe T, Yamamoto T, Tsukano K, Hirano S, Horikawa A, Michiue T., Development. October 26, 2018; 145 (20):                                     

Xbra and Smad-1 cooperate to activate the transcription of neural repressor ventx1.1 in Xenopus embryos., Kumar S, Kumar S, Umair Z, Yoon J, Lee U, Kim SC, Park JB, Lee JY, Kim J., Sci Rep. July 30, 2018; 8 (1): 11391.                

Pitx1 regulates cement gland development in Xenopus laevis through activation of transcriptional targets and inhibition of BMP signaling., Jin Y, Weinstein DC., Dev Biol. May 1, 2018; 437 (1): 41-49.          

A transgenic reporter under control of an es1 promoter/enhancer marks wound epidermis and apical epithelial cap during tail regeneration in Xenopus laevis tadpole., Sato K, Umesono Y, Mochii M., Dev Biol. January 15, 2018; 433 (2): 404-415.                    

Hyperinnervation improves Xenopus laevis limb regeneration., Mitogawa K, Makanae A, Satoh A., Dev Biol. January 15, 2018; 433 (2): 276-286.                    

Reference gene identification and validation for quantitative real-time PCR studies in developing Xenopus laevis., Mughal BB, Leemans M, Spirhanzlova P, Demeneix B, Fini JB., Sci Rep. January 11, 2018; 8 (1): 496.            

Dicer inactivation stimulates limb regeneration ability in Xenopus laevis., Zhang M, Yang L, Yuan F, Chen Y, Lin G., Wound Repair Regen. January 1, 2018; 26 (1): 46-53.          

Reactivation of larval keratin gene (krt62.L) in blastema epithelium during Xenopus froglet limb regeneration., Satoh A, Mitogawa K, Saito N, Suzuki M, Suzuki M, Suzuki KT, Ochi H, Makanae A., Dev Biol. December 15, 2017; 432 (2): 265-272.            

PFKFB4 control of AKT signaling is essential for premigratory and migratory neural crest formation., Figueiredo AL, Maczkowiak F, Borday C, Pla P, Sittewelle M, Pegoraro C, Monsoro-Burq AH., Development. November 15, 2017; 144 (22): 4183-4194.                                

A molecular atlas of the developing ectoderm defines neural, neural crest, placode, and nonneural progenitor identity in vertebrates., Plouhinec JL, Medina-Ruiz S, Borday C, Bernard E, Vert JP, Eisen MB, Harland RM, Monsoro-Burq AH., PLoS Biol. October 19, 2017; 15 (10): e2004045.                                              

KDM3A-mediated demethylation of histone H3 lysine 9 facilitates the chromatin binding of Neurog2 during neurogenesis., Lin H, Zhu X, Chen G, Song L, Gao L, Khand AA, Chen Y, Lin G, Tao Q, Tao Q., Development. October 15, 2017; 144 (20): 3674-3685.                          

Robust identification of Ptbp1-dependent splicing events by a junction-centric approach in Xenopus laevis., Noiret M, Méreau A, Angrand G, Bervas M, Gautier-Courteille C, Legagneux V, Deschamps S, Lerivray H, Viet J, Hardy S, Paillard L, Audic Y., Dev Biol. June 15, 2017; 426 (2): 449-459.            

RARβ2 is required for vertebrate somitogenesis., Janesick A, Tang W, Nguyen TTL, Blumberg B., Development. June 1, 2017; 144 (11): 1997-2008.                                              

FoxD1 protein interacts with Wnt and BMP signaling to differentially pattern mesoderm and neural tissue., Polevoy H, Malyarova A, Fonar Y, Elias S, Frank D., Int J Dev Biol. January 1, 2017; 61 (3-4-5): 293-302.              

Lethal and sublethal effects of phthalate diesters in Silurana tropicalis larvae., Mathieu-Denoncourt J, Martyniuk CJ, Loughery JR, Yargeau V, de Solla SR, Langlois VS., Environ Toxicol Chem. October 1, 2016; 35 (10): 2511-2522.

FoxH1 mediates a Grg4 and Smad2 dependent transcriptional switch in Nodal signaling during Xenopus mesoderm development., Reid CD, Steiner AB, Yaklichkin S, Lu Q, Wang S, Hennessy M, Kessler DS., Dev Biol. June 1, 2016; 414 (1): 34-44.                  

Measuring Absolute RNA Copy Numbers at High Temporal Resolution Reveals Transcriptome Kinetics in Development., Owens ND, Blitz IL, Lane MA, Patrushev I, Overton JD, Gilchrist MJ, Cho KW, Khokha MK., Cell Rep. January 26, 2016; 14 (3): 632-47.                                                  

Paraxis is required for somite morphogenesis and differentiation in Xenopus laevis., Sánchez RS, Sánchez SS., Dev Dyn. August 1, 2015; 244 (8): 973-87.                              

Multi-site phosphorylation regulates NeuroD4 activity during primary neurogenesis: a conserved mechanism amongst proneural proteins., Hardwick LJ, Philpott A., Neural Dev. June 18, 2015; 10 15.                  

Notum is required for neural and head induction via Wnt deacylation, oxidation, and inactivation., Zhang X, Cheong SM, Amado NG, Reis AH, MacDonald BT, Zebisch M, Jones EY, Abreu JG, He X., Dev Cell. March 23, 2015; 32 (6): 719-30.                                  

Evaluation of developmental toxicity and teratogenicity of diclofenac using Xenopus embryos., Chae JP, Park MS, Hwang YS, Min BH, Kim SH, Lee HS, Park MJ., Chemosphere. February 1, 2015; 120 52-8.

A posttranscriptional mechanism that controls Ptbp1 abundance in the Xenopus epidermis., Méreau A, Anquetil V, Lerivray H, Viet J, Schirmer C, Audic Y, Legagneux V, Hardy S, Paillard L., Mol Cell Biol. February 1, 2015; 35 (4): 758-68.              

Xenopus laevis FGF receptor substrate 3 (XFrs3) is important for eye development and mediates Pax6 expression in lens placode through its Shp2-binding sites., Kim YJ, Bahn M, Kim YH, Shin JY, Cheong SW, Ju BG, Kim WS, Yeo CY., Dev Biol. January 1, 2015; 397 (1): 129-39.                                          

Chibby functions in Xenopus ciliary assembly, embryonic development, and the regulation of gene expression., Shi J, Zhao Y, Galati D, Winey M, Klymkowsky MW., Dev Biol. November 15, 2014; 395 (2): 287-98.                    

Specific induction of cranial placode cells from Xenopus ectoderm by modulating the levels of BMP, Wnt and FGF signaling., Watanabe T, Kanai Y, Matsukawa S, Michiue T., Genesis. October 1, 2014; .

Retinoic acid induced-1 (Rai1) regulates craniofacial and brain development in Xenopus., Tahir R, Kennedy A, Elsea SH, Dickinson AJ., Mech Dev. August 1, 2014; 133 91-104.                            

High-resolution analysis of gene activity during the Xenopus mid-blastula transition., Collart C, Owens ND, Bhaw-Rosun L, Cooper B, De Domenico E, Patrushev I, Sesay AK, Smith JN, Smith JC, Gilchrist MJ., Development. May 1, 2014; 141 (9): 1927-39.                  

Spalt-like 4 promotes posterior neural fates via repression of pou5f3 family members in Xenopus., Young JJ, Kjolby RA, Kong NR, Monica SD, Harland RM., Development. April 1, 2014; 141 (8): 1683-93.                                                                

Validation of novel reference genes for RT-qPCR studies of gene expression in Xenopus tropicalis during embryonic and post-embryonic development., Dhorne-Pollet S, Thélie A, Pollet N., Dev Dyn. June 1, 2013; 242 (6): 709-17.    

Physiological responses of Xenopus laevis tadpoles exposed to cyanobacterial biomass containing microcystin-LR., Ziková A, Lorenz C, Lutz I, Pflugmacher S, Kloas W., Aquat Toxicol. March 15, 2013; 128-129 25-33.

Expression of pluripotency factors in larval epithelia of the frog Xenopus: evidence for the presence of cornea epithelial stem cells., Perry KJ, Thomas AG, Henry JJ., Dev Biol. February 15, 2013; 374 (2): 281-94.                

Imparting regenerative capacity to limbs by progenitor cell transplantation., Lin G, Chen Y, Chen Y, Slack JM., Dev Cell. January 14, 2013; 24 (1): 41-51.                          

Single blastomere expression profiling of Xenopus laevis embryos of 8 to 32-cells reveals developmental asymmetry., Flachsova M, Sindelka R, Kubista M., Sci Rep. January 1, 2013; 3 2278.      

Early, nonciliary role for microtubule proteins in left-right patterning is conserved across kingdoms., Lobikin M, Wang G, Xu J, Hsieh YW, Chuang CF, Lemire JM, Levin M., Proc Natl Acad Sci U S A. July 31, 2012; 109 (31): 12586-91.                    

TAK1 promotes BMP4/Smad1 signaling via inhibition of erk MAPK: a new link in the FGF/BMP regulatory network., Liu C, Goswami M, Talley J, Chesser-Martinez PL, Lou CH, Sater AK., Differentiation. April 1, 2012; 83 (4): 210-9.                  

Identification and expression analysis of GPAT family genes during early development of Xenopus laevis., Bertolesi GE, Iannattone S, Johnston J, Zaremberg V, McFarlane S., Gene Expr Patterns. January 1, 2012; 12 (7-8): 219-27.                            

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.      

Evolutionary importance of translation elongation factor eEF1A variant switching: eEF1A1 down-regulation in muscle is conserved in Xenopus but is controlled at a post-transcriptional level., Newbery HJ, Stancheva I, Zimmerman LB, Abbott CM., Biochem Biophys Res Commun. July 22, 2011; 411 (1): 19-24.      

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