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Summary Expression Phenotypes Gene Literature (42) GO Terms (3) Nucleotides (109) Proteins (44) Interactants (515) Wiki
XB--867552

Papers associated with myb



Limit to papers also referencing gene:
5 paper(s) referencing morpholinos

Results 1 - 41 of 41 results

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referenced by:


RNA demethylation by FTO stabilizes the FOXJ1 mRNA for proper motile ciliogenesis., Kim H, Lee YS, Kim SM, Jang S, Choi H, Lee JW, Kim TD, Kim VN., Dev Cell. April 19, 2021; 56 (8): 1118-1130.e6.                                  


Xenopus epidermal and endodermal epithelia as models for mucociliary epithelial evolution, disease, and metaplasia., Walentek P., Genesis. February 1, 2021; 59 (1-2): e23406.          


Xenopus to the rescue: A model to validate and characterize candidate ciliopathy genes., Rao VG, Kulkarni SS., Genesis. February 1, 2021; 59 (1-2): e23414.  


The neural border: Induction, specification and maturation of the territory that generates neural crest cells., Pla P, Monsoro-Burq AH., Dev Biol. December 1, 2018; 444 Suppl 1 S36-S46.    


CDC20B is required for deuterosome-mediated centriole production in multiciliated cells., Revinski DR, Zaragosi LE, Boutin C, Ruiz-Garcia S, Deprez M, Thomé V, Rosnet O, Gay AS, Mercey O, Paquet A, Pons N, Ponzio G, Marcet B, Kodjabachian L, Barbry P., Nat Commun. November 7, 2018; 9 (1): 4668.              


TRRAP is a central regulator of human multiciliated cell formation., Wang Z, Plasschaert LW, Aryal S, Renaud NA, Yang Z, Choo-Wing R, Pessotti AD, Kirkpatrick ND, Cochran NR, Carbone W, Maher R, Lindeman A, Russ C, Reece-Hoyes J, McAllister G, Hoffman GR, Roma G, Jaffe AB., J Cell Biol. June 4, 2018; 217 (6): 1941-1955.                        


Development of User-Friendly Method to Distinguish Subspecies of the Korean Medicinal Herb Perilla frutescens Using Multiplex-PCR., Kim Y, Kim AY, Jo A, Choi H, Cho SS, Choi C., Molecules. April 21, 2017; 22 (4):           


Rfx2 Stabilizes Foxj1 Binding at Chromatin Loops to Enable Multiciliated Cell Gene Expression., Quigley IK, Kintner C., PLoS Genet. January 19, 2017; 13 (1): e1006538.            


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):       


ATP4a is required for development and function of the Xenopus mucociliary epidermis - a potential model to study proton pump inhibitor-associated pneumonia., Walentek P, Beyer T, Hagenlocher C, Müller C, Feistel K, Schweickert A, Harland RM, Blum M., Dev Biol. December 15, 2015; 408 (2): 292-304.                                


GATA2 regulates Wnt signaling to promote primitive red blood cell fate., Mimoto MS, Kwon S, Green YS, Goldman D, Christian JL., Dev Biol. November 1, 2015; 407 (1): 1-11.                          


Finding Our Way through Phenotypes., Deans AR, Lewis SE, Huala E, Anzaldo SS, Ashburner M, Balhoff JP, Blackburn DC, Blake JA, Burleigh JG, Chanet B, Cooper LD, Courtot M, Csösz S, Cui H, Dahdul W, Das S, Dececchi TA, Dettai A, Diogo R, Druzinsky RE, Dumontier M, Franz NM, Friedrich F, Gkoutos GV, Haendel M, Harmon LJ, Hayamizu TF, He Y, Hines HM, Ibrahim N, Jackson LM, Jaiswal P, James-Zorn C, Köhler S, Lecointre G, Lapp H, Lawrence CJ, Le Novère N, Lundberg JG, Macklin J, Mast AR, Midford PE, Mikó I, Mungall CJ, Oellrich A, Osumi-Sutherland D, Parkinson H, Ramírez MJ, Richter S, Robinson PN, Ruttenberg A, Schulz KS, Segerdell E, Seltmann KC, Sharkey MJ, Smith AD, Smith B, Specht CD, Squires RB, Thacker RW, Thessen A, Fernandez-Triana J, Vihinen M, Vize PD, Vogt L, Wall CE, Walls RL, Westerfeld M, Wharton RA, Wirkner CS, Woolley JB, Yoder MJ, Zorn AM, Mabee P., PLoS Biol. January 6, 2015; 13 (1): e1002033.    


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.                    


Xenopus mutant reveals necessity of rax for specifying the eye field which otherwise forms tissue with telencephalic and diencephalic character., Fish MB, Nakayama T, Fisher M, Hirsch N, Cox A, Reeder R, Carruthers S, Hall A, Stemple DL, Grainger RM., Dev Biol. November 15, 2014; 395 (2): 317-330.                  


Myb promotes centriole amplification and later steps of the multiciliogenesis program., Tan FE, Vladar EK, Ma L, Fuentealba LC, Hoh R, Espinoza FH, Axelrod JD, Alvarez-Buylla A, Stearns T, Kintner C, Krasnow MA., Development. October 1, 2013; 140 (20): 4277-86.                


VEGFA-dependent and -independent pathways synergise to drive Scl expression and initiate programming of the blood stem cell lineage in Xenopus., Ciau-Uitz A, Pinheiro P, Kirmizitas A, Zuo J, Patient R., Development. June 1, 2013; 140 (12): 2632-42.                                                                                                                            


Uncoupling VEGFA functions in arteriogenesis and hematopoietic stem cell specification., Leung A, Ciau-Uitz A, Pinheiro P, Monteiro R, Zuo J, Vyas P, Patient R, Porcher C., Dev Cell. January 28, 2013; 24 (2): 144-58.                                


Genomic code for Sox10 activation reveals a key regulatory enhancer for cranial neural crest., Betancur P, Bronner-Fraser M, Sauka-Spengler T., Proc Natl Acad Sci U S A. February 23, 2010; 107 (8): 3570-5.  


CD41+ cmyb+ precursors colonize the zebrafish pronephros by a novel migration route to initiate adult hematopoiesis., Bertrand JY, Kim AD, Teng S, Traver D., Development. May 1, 2008; 135 (10): 1853-62.


Exploring nervous system transcriptomes during embryogenesis and metamorphosis in Xenopus tropicalis using EST analysis., Fierro AC, Thuret R, Coen L, Perron M, Demeneix BA, Wegnez M, Gyapay G, Weissenbach J, Wincker P, Mazabraud A, Pollet N., BMC Genomics. July 10, 2007; 8 118.        


A truncated acidic domain in Xenopus TRF1., Crumet N, Carlson RL, Drutman SB, Shampay J., Gene. March 15, 2006; 369 20-6.        


Cell-cycle-dependent Xenopus TRF1 recruitment to telomere chromatin regulated by Polo-like kinase., Nishiyama A, Muraki K, Saito M, Ohsumi K, Kishimoto T, Ishikawa F., EMBO J. February 8, 2006; 25 (3): 575-84.


Identification of novel genes affecting mesoderm formation and morphogenesis through an enhanced large scale functional screen in Xenopus., Chen JA, Voigt J, Gilchrist M, Papalopulu N, Amaya E., Mech Dev. March 1, 2005; 122 (3): 307-31.                                                                                                                      


The chicken telomerase reverse transcriptase (chTERT): molecular and cytogenetic characterization with a comparative analysis., Delany ME, Daniels LM., Gene. September 15, 2004; 339 61-9.


Role of the thrombopoietin (TPO)/Mpl system: c-Mpl-like molecule/TPO signaling enhances early hematopoiesis in Xenopus laevis., Kakeda M, Kyuno J, Kato T, Nishikawa M, Asashima M., Dev Growth Differ. February 1, 2002; 44 (1): 63-75.                


Molecular characterization of the Xenopus CCAAT-enhancer binding protein beta gene promoter., Foka P, Kousteni S, Ramji DP., Biochem Biophys Res Commun. July 13, 2001; 285 (2): 430-6.


Intron 1 rather than 5'' flanking sequence mediates cell type-specific expression of c-myb at level of transcription elongation., Yuan W., Biochim Biophys Acta. January 31, 2000; 1490 (1-2): 74-86.


Regulation of DNA binding activity and nuclear transport of B-Myb in Xenopus oocytes., Humbert-Lan G, Pieler T., J Biol Chem. April 9, 1999; 274 (15): 10293-300.                


Lymphocyte development in fish and amphibians., Hansen JD, Zapata AG., Immunol Rev. December 1, 1998; 166 199-220.


An interferon regulatory factor-related gene (xIRF-6) is expressed in the posterior mesoderm during the early development of Xenopus laevis., Hatada S, Kinoshita M, Takahashi S, Nishihara R, Sakumoto H, Fukui A, Noda M, Asashima M., Gene. December 12, 1997; 203 (2): 183-8.      


B-Myb, a repressed trans-activating protein., Ansieau S, Kowenz-Leutz E, Dechend R, Leutz A., J Mol Med (Berl). November 1, 1997; 75 (11-12): 815-9.


Bipotential primitive-definitive hematopoietic progenitors in the vertebrate embryo., Turpen JB, Kelley CM, Mead PE, Zon LI., Immunity. September 1, 1997; 7 (3): 325-34.


Molecular characterization of Xenopus laevis DP proteins., Girling R, Bandara LR, Ormondroyd E, Lam EW, Kotecha S, Mohun T, La Thangue NB., Mol Biol Cell. October 1, 1994; 5 (10): 1081-92.              


Regulation of gene expression by transcription factors Ets-1 and Ets-2., Tymms MJ, Kola I., Mol Reprod Dev. October 1, 1994; 39 (2): 208-14.


Functional aspects of B-Myb in early Xenopus development., Bouwmeester T, van Wijk I, Wedlich D, Pieler T., Oncogene. April 1, 1994; 9 (4): 1029-38.


Characterization and expression of the Xenopus c-Myb homolog., Amaravadi L, King MW, King MW., Oncogene. March 1, 1994; 9 (3): 971-4.


Xenopus A-myb is expressed during early spermatogenesis., Sleeman JP., Oncogene. July 1, 1993; 8 (7): 1931-41.


The Ets family of transcription factors., Wasylyk B, Hahn SL, Giovane A., Eur J Biochem. January 15, 1993; 211 (1-2): 7-18.


Molecular cloning, expression and in vitro functional characterization of Myb-related proteins in Xenopus., Bouwmeester T, Güehmann S, el-Baradi T, Kalkbrenner F, van Wijk I, Moelling K, Pieler T., Mech Dev. March 1, 1992; 37 (1-2): 57-68.    


Developmental potential., Holmgren RA, Engel JD., Genes Dev. February 1, 1992; 6 (2): 161-5.


Nucleotide sequence of chicken myb proto-oncogene promoter region: detection of an evolutionarily conserved element., Urbánek P, Dvorák M, Bartunk P, Pecenka V, Paces V, Trávnícek M., Nucleic Acids Res. December 23, 1988; 16 (24): 11521-30.

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