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Summary Expression Phenotypes Gene Literature (502) GO Terms (14) Nucleotides (247) Proteins (47) Interactants (1860) Wiki
XB-GENEPAGE-1017497

Papers associated with myod1



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154 ???displayGene.morpholinoPapers???

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referenced by:

A CRISPR-Cas9-mediated versatile method for targeted integration of a fluorescent protein gene to visualize endogenous gene expression in Xenopus laevis., Mochii M, Akizuki K, Ossaka H, Kagawa N, Umesono Y, Suzuki KT., Dev Biol. February 1, 2024; 506 42-51.                                

Conserved chromatin and repetitive patterns reveal slow genome evolution in frogs., Bredeson JV, Mudd AB, Medina-Ruiz S, Mitros T, Smith OK, Miller KE, Lyons JB, Batra SS, Park J, Berkoff KC, Plott C, Grimwood J, Schmutz J, Aguirre-Figueroa G, Khokha MK, Lane M, Philipp I, Laslo M, Hanken J, Kerdivel G, Buisine N, Sachs LM, Buchholz DR, Kwon T, Smith-Parker H, Gridi-Papp M, Ryan MJ, Denton RD, Malone JH, Wallingford JB, Straight AF, Heald R, Hockemeyer D, Harland RM, Rokhsar DS., Nat Commun. January 17, 2024; 15 (1): 579.                                            

Water contamination by delorazepam induces epigenetic defects in the embryos of the clawed frog Xenopus laevis., Fogliano C, Motta CM, Acloque H, Avallone B, Carotenuto R., Sci Total Environ. October 20, 2023; 896 165300.          

Purine Biosynthesis Pathways Are Required for Myogenesis in Xenopus laevis., Duperray M, Hardet F, Henriet E, Saint-Marc C, Boué-Grabot E, Daignan-Fornier B, Massé K, Pinson B., Cells. September 28, 2023; 12 (19):               

The complete dorsal structure is formed from only the blastocoel roof of Xenopus blastula: insight into the gastrulation movement evolutionarily conserved among chordates., Sato Y, Narasaki I, Kunimoto T, Moriyama Y, Hashimoto C., Dev Genes Evol. June 1, 2023; 233 (1): 1-12.                

ccl19 and ccl21 affect cell movements and differentiation in early Xenopus development., Goto T, Michiue T, Shibuya H., Dev Growth Differ. April 1, 2023; 65 (3): 175-189.                

Membrane potential drives the exit from pluripotency and cell fate commitment via calcium and mTOR., Sempou E, Kostiuk V, Zhu J, Cecilia Guerra M, Tyan L, Hwang W, Camacho-Aguilar E, Caplan MJ, Zenisek D, Warmflash A, Owens NDL, Khokha MK., Nat Commun. November 5, 2022; 13 (1): 6681.                                            

Maternal Wnt11b regulates cortical rotation during Xenopus axis formation: analysis of maternal-effect wnt11b mutants., Houston DW, Elliott KL, Coppenrath K, Wlizla M, Horb ME., Development. September 1, 2022; 149 (17):                                   

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.                          

Reduced Retinoic Acid Signaling During Gastrulation Induces Developmental Microcephaly., Gur M, Bendelac-Kapon L, Shabtai Y, Pillemer G, Fainsod A., Front Cell Dev Biol. January 1, 2022; 10 844619.                        

dmrt2 and myf5 Link Early Somitogenesis to Left-Right Axis Determination in Xenopus laevis., Tingler M, Brugger A, Feistel K, Schweickert A., Front Cell Dev Biol. January 1, 2022; 10 858272.                  

FGF-mediated establishment of left-right asymmetry requires Rab7 function in the dorsal mesoderm in Xenopus., Kreis J, Camuto CM, Elsner CC, Vogel S, Vick P., Front Cell Dev Biol. January 1, 2022; 10 981762.                  

The enpp4 ectonucleotidase regulates kidney patterning signalling networks in Xenopus embryos., Massé K, Bhamra S, Paroissin C, Maneta-Peyret L, Boué-Grabot E, Jones EA., Commun Biol. October 7, 2021; 4 (1): 1158.                                

Bicc1 and Dicer regulate left-right patterning through post-transcriptional control of the Nodal inhibitor Dand5., Maerker M, Getwan M, Dowdle ME, McSheene JC, Gonzalez V, Pelliccia JL, Hamilton DS, Yartseva V, Vejnar C, Tingler M, Minegishi K, Vick P, Giraldez AJ, Hamada H, Burdine RD, Sheets MD, Blum M, Schweickert A., Nat Commun. September 16, 2021; 12 (1): 5482.                              

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.                        

TGF-β1 signaling is essential for tissue regeneration in the Xenopus tadpole tail., Nakamura M, Yoshida H, Moriyama Y, Kawakita I, Wlizla M, Takebayashi-Suzuki K, Horb ME, Suzuki A., Biochem Biophys Res Commun. August 6, 2021; 565 91-96.          

Rab7 is required for mesoderm patterning and gastrulation in Xenopus., Kreis J, Wielath FM, Vick P., Biol Open. July 15, 2021; 10 (7):                                           

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.            

BMP signaling is enhanced intracellularly by FHL3 controlling WNT-dependent spatiotemporal emergence of the neural crest., Alkobtawi M, Pla P, Monsoro-Burq AH., Cell Rep. June 22, 2021; 35 (12): 109289.                        

The cytokine FAM3B/PANDER is an FGFR ligand that promotes posterior development in Xenopus., Zhang F, Zhu X, Wang P, He Q, Huang H, Zheng T, Li Y, Jia H, Xu L, Zhao H, Colozza G, Tao Q, De Robertis EM, Ding Y., Proc Natl Acad Sci U S A. May 18, 2021; 118 (20):           

Kindlin2 regulates neural crest specification via integrin-independent regulation of the FGF signaling pathway., Wang H, Wang C, Wang C, Wang C, Long Q, Zhang Y, Wang M, Liu J, Qi X, Cai D, Lu G, Sun J, Yao YG, Chan WY, Chan WY, Deng Y, Zhao H., Development. May 15, 2021; 148 (10):                                           

Pinhead antagonizes Admp to promote notochord formation., Itoh K, Ossipova O, Sokol SY., iScience. May 7, 2021; 24 (6): 102520.                            

Mapping single-cell atlases throughout Metazoa unravels cell type evolution., Tarashansky AJ, Musser JM, Khariton M, Li P, Arendt D, Quake SR, Wang B., Elife. May 4, 2021; 10                             

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.              

Furry is required for cell movements during gastrulation and functionally interacts with NDR1., Cervino AS, Moretti B, Stuckenholz C, Grecco HE, Davidson LA, Davidson LA, Cirio MC., Sci Rep. March 23, 2021; 11 (1): 6607.                                  

Segregation of brain and organizer precursors is differentially regulated by Nodal signaling at blastula stage., Castro Colabianchi AM, Tavella MB, Boyadjián López LE, Rubinstein M, Franchini LF, López SL., Biol Open. February 25, 2021; 10 (2):                 

Evolution of Somite Compartmentalization: A View From Xenopus., Della Gaspera B, Weill L, Chanoine C., Front Cell Dev Biol. January 1, 2021; 9 790847.                  

Wnt-inducible Lrp6-APEX2 interacting proteins identify ESCRT machinery and Trk-fused gene as components of the Wnt signaling pathway., Colozza G, Jami-Alahmadi Y, Dsouza A, Tejeda-Muñoz N, Albrecht LV, Sosa EA, Wohlschlegel JA, De Robertis EM., Sci Rep. December 9, 2020; 10 (1): 21555.            

Hes5.9 Coordinate FGF and Notch Signaling to Modulate Gastrulation via Regulating Cell Fate Specification and Cell Migration in Xenopus tropicalis., Huang X, Zhang L, Yang S, Zhang Y, Wu M, Chen P., Genes (Basel). November 18, 2020; 11 (11):                   

R-spondins are BMP receptor antagonists in Xenopus early embryonic development., Lee H, Lee H, Seidl C, Sun R, Glinka A, Niehrs C., Nat Commun. November 4, 2020; 11 (1): 5570.                                            

Tissue segregation in the early vertebrate embryo., Fagotto F., Semin Cell Dev Biol. November 1, 2020; 107 130-146.

Disabled-2: a positive regulator of the early differentiation of myoblasts., Shang N, Lee JTY, Huang T, Wang C, Wang C, Lee TL, Mok SC, Zhao H, Chan WY., Cell Tissue Res. September 1, 2020; 381 (3): 493-508.                              

Long-term association of a transcription factor with its chromatin binding site can stabilize gene expression and cell fate commitment., Gurdon JB, Javed K, Vodnala M, Garrett N., Proc Natl Acad Sci U S A. June 30, 2020; 117 (26): 15075-15084.            

Natural size variation among embryos leads to the corresponding scaling in gene expression., Leibovich A, Edri T, Klein SL, Moody SA, Fainsod A., Dev Biol. June 15, 2020; 462 (2): 165-179.                    

Chromatin accessibility and histone acetylation in the regulation of competence in early development., Esmaeili M, Blythe SA, Tobias JW, Zhang K, Yang J, Klein PS., Dev Biol. June 1, 2020; 462 (1): 20-35.                

The AP-1 transcription factor JunB functions in Xenopus tail regeneration by positively regulating cell proliferation., Nakamura M, Yoshida H, Takahashi E, Wlizla M, Takebayashi-Suzuki K, Horb ME, Suzuki A., Biochem Biophys Res Commun. February 19, 2020; 522 (4): 990-995.              

Modeling Bainbridge-Ropers Syndrome in Xenopus laevis Embryos., Lichtig H, Artamonov A, Polevoy H, Reid CD, Bielas SL, Frank D., Front Physiol. January 1, 2020; 11 75.                    

Pinhead signaling regulates mesoderm heterogeneity via FGF receptor-dependent pathway., Ossipova O, Itoh K, Radu A, Ezan J, Sokol SY., Development. January 1, 2020;                                       

Maternal pluripotency factors initiate extensive chromatin remodelling to predefine first response to inductive signals., Gentsch GE, Spruce T, Owens NDL, Smith JC., Nat Commun. September 19, 2019; 10 (1): 4269.                                        

BAP1 regulates epigenetic switch from pluripotency to differentiation in developmental lineages giving rise to BAP1-mutant cancers., Kuznetsov JN, Aguero TH, Owens DA, Kurtenbach S, Field MG, Durante MA, Rodriguez DA, King ML, Harbour JW., Sci Adv. September 18, 2019; 5 (9): eaax1738.        

The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass., Ding S, Nie Y, Zhang X, Liu X, Wang C, Wang C, Yuan R, Chen K, Zhu Q, Cai S, Fang Y, Chen Y, Chen Y, Mo D., BMC Genet. September 2, 2019; 20 (1): 72.      

Lineage tracing of sclerotome cells in amphibian reveals that multipotent somitic cells originate from lateral somitic frontier., Della Gaspera B, Mateus A, Andéol Y, Weill L, Charbonnier F, Chanoine C., Dev Biol. September 1, 2019; 453 (1): 11-18.        

Retinoic acid signaling reduction recapitulates the effects of alcohol on embryo size., Shukrun N, Shabtai Y, Pillemer G, Fainsod A., Genesis. July 1, 2019; 57 (7-8): e23284.                

Mechanical strain, novel genes and evolutionary insights: news from the frog left-right organizer., Blum M, Ott T., Curr Opin Genet Dev. June 1, 2019; 56 8-14.      

A dual function of FGF signaling in Xenopus left-right axis formation., Schneider I, Kreis J, Schweickert A, Blum M, Vick P., Development. May 10, 2019; 146 (9):                               

Multi-site phosphorylation controls the neurogenic and myogenic activity of E47., Hardwick LJA, Davies JD, Philpott A., Biochem Biophys Res Commun. March 26, 2019; 511 (1): 111-116.        

Cdc42 Effector Protein 3 Interacts With Cdc42 in Regulating Xenopus Somite Segmentation., Kho M, Shi H, Nie S., Front Physiol. January 1, 2019; 10 542.          

The extraordinary biology and development of marsupial frogs (Hemiphractidae) in comparison with fish, mammals, birds, amphibians and other animals., Del Pino EM., Mech Dev. December 1, 2018; 154 2-11.        

The Lhx1-Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development., Espiritu EB, Crunk AE, Bais A, Hochbaum D, Cervino AS, Phua YL, Butterworth MB, Goto T, Ho J, Hukriede NA, Cirio MC., Sci Rep. October 30, 2018; 8 (1): 16029.                                      

Xenopus SOX5 enhances myogenic transcription indirectly through transrepression., Della Gaspera B, Chesneau A, Weill L, Charbonnier F, Chanoine C., Dev Biol. October 15, 2018; 442 (2): 262-275.                    

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