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Summary Expression Phenotypes Gene Literature (198) GO Terms (4) Nucleotides (275) Proteins (52) Interactants (1235) Wiki
XB-GENEPAGE-490377

Papers associated with msx1



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45 paper(s) referencing morpholinos

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referenced by:


A mathematical modelling portrait of Wnt signalling in early vertebrate embryogenesis., Giuraniuc CV, Zain S, Ghafoor S, Hoppler S., J Theor Biol. November 7, 2022; 551-552 111239.                      


Systematic mapping of rRNA 2''-O methylation during frog development and involvement of the methyltransferase Fibrillarin in eye and craniofacial development in Xenopus laevis., Delhermite J, Tafforeau L, Sharma S, Marchand V, Wacheul L, Lattuca R, Desiderio S, Motorin Y, Bellefroid E, Lafontaine DLJ., PLoS Genet. January 18, 2022; 18 (1): e1010012.                                                              


Evo-Devo of Urbilateria and its larval forms., De Robertis EM, Tejeda-Muñoz N., Dev Biol. January 1, 2022; 487 10-20.        


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.                        


Secreted inhibitors drive the loss of regeneration competence in Xenopus limbs., Aztekin C, Hiscock TW, Gurdon J, Jullien J, Marioni J, Simons BD., Development. June 1, 2021; 148 (11):                                             


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.                  


The RNA helicase DDX3 induces neural crest by promoting AKT activity., Perfetto M, Xu X, Lu C, Shi Y, Yousaf N, Li J, Yien YY, Wei S., Development. January 19, 2021; 148 (2):                           


Mcrs1 interacts with Six1 to influence early craniofacial and otic development., Neilson KM, Keer S, Bousquet N, Macrorie O, Majumdar HD, Kenyon KL, Alfandari D, Alfandari D, Moody SA., Dev Biol. November 1, 2020; 467 (1-2): 39-50.                  


Sox17 and β-catenin co-occupy Wnt-responsive enhancers to govern the endoderm gene regulatory network., Mukherjee S, Chaturvedi P, Rankin SA, Rankin SA, Fish MB, Wlizla M, Paraiso KD, MacDonald M, Chen X, Weirauch MT, Blitz IL, Cho KW, Zorn AM., Elife. September 7, 2020; 9                           


The transcription factor Hypermethylated in Cancer 1 (Hic1) regulates neural crest migration via interaction with Wnt signaling., Ray H, Chang C., Dev Biol. July 15, 2020; 463 (2): 169-181.


Heparan sulfate proteoglycans regulate BMP signalling during neural crest induction., Pegge J, Tatsinkam AJ, Rider CC, Bell E., Dev Biol. April 15, 2020; 460 (2): 108-114.        


Six1 proteins with human branchio-oto-renal mutations differentially affect cranial gene expression and otic development., Shah AM, Krohn P, Baxi AB, Tavares ALP, Sullivan CH, Chillakuru YR, Majumdar HD, Neilson KM, Moody SA., Dis Model Mech. March 3, 2020; 13 (3):                                               


Trpc1 as the Missing Link Between the Bmp and Ca2+ Signalling Pathways During Neural Specification in Amphibians., Néant I, Leung HC, Webb SE, Miller AL, Miller AL, Moreau M, Leclerc C., Sci Rep. November 5, 2019; 9 (1): 16049.                                    


Bioinformatics Screening of Genes Specific for Well-Regenerating Vertebrates Reveals c-answer, a Regulator of Brain Development and Regeneration., Korotkova DD, Lyubetsky VA, Ivanova AS, Rubanov LI, Seliverstov AV, Zverkov OA, Martynova NY, Nesterenko AM, Tereshina MB, Peshkin L, Zaraisky AG., Cell Rep. October 22, 2019; 29 (4): 1027-1040.e6.                              


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.        


Single Amino Acid Change Underlies Distinct Roles of H2A.Z Subtypes in Human Syndrome., Greenberg RS, Long HK, Swigut T, Wysocka J., Cell. September 5, 2019; 178 (6): 1421-1436.e24.                                


Development: How Tadpoles ROC Tail Regeneration., Dunlap GS, Whited JL., Curr Biol. August 5, 2019; 29 (15): R756-R758.  


Leukemia inhibitory factor signaling in Xenopus embryo: Insights from gain of function analysis and dominant negative mutant of the receptor., Jalvy S, Veschambre P, Fédou S, Rezvani HR, Thézé N, Thiébaud P., Dev Biol. March 15, 2019; 447 (2): 200-213.                                  


The Many Faces of Xenopus: Xenopus laevis as a Model System to Study Wolf-Hirschhorn Syndrome., Lasser M, Pratt B, Monahan C, Kim SW, Lowery LA., Front Physiol. February 1, 2019; 10 817.                    


Ventx1.1 as a Direct Repressor of Early Neural Gene zic3 in Xenopus laevis., Umair Z, Kumar S, Kim DH, Rafiq K, Kumar V, Kim S, Park JB, Lee JY, Lee U, Kim J., Mol Cells. December 31, 2018; 41 (12): 1061-1071.          


Alteration of the Retinoid Acid-CBP Signaling Pathway in Neural Crest Induction Contributes to Enteric Nervous System Disorder., Li C, Hu R, Hou N, Wang Y, Wang Z, Yang T, Gu Y, He M, Shi Y, Chen J, Song W, Li T., Front Pediatr. December 3, 2018; 6 382.                        


AKT signaling displays multifaceted functions in neural crest development., Sittewelle M, Monsoro-Burq AH., Dev Biol. December 1, 2018; 444 Suppl 1 S144-S155.


Early specification and development of rabbit neural crest cells., Betters E, Charney RM, Garcia-Castro MI., Dev Biol. December 1, 2018; 444 Suppl 1 S181-S192.


Gli2 is required for the induction and migration of Xenopus laevis neural crest., Cerrizuela S, Vega-López GA, Palacio MB, Tríbulo C, Aybar MJ, Aybar MJ., Mech Dev. December 1, 2018; 154 219-239.                      


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.    


Ras-dva small GTPases lost during evolution of amniotes regulate regeneration in anamniotes., Ivanova AS, Korotkova DD, Ermakova GV, Martynova NY, Zaraisky AG, Tereshina MB., Sci Rep. August 29, 2018; 8 (1): 13035.                                                    


Melanocortin Receptor 4 Signaling Regulates Vertebrate Limb Regeneration., Zhang M, Chen Y, Xu H, Yang L, Yuan F, Li L, Xu Y, Xu Y, Chen Y, Zhang C, Lin G., Dev Cell. August 20, 2018; 46 (4): 397-409.e5.                              


Shared evolutionary origin of vertebrate neural crest and cranial placodes., Horie R, Hazbun A, Chen K, Cao C, Levine M, Horie T., Nature. August 1, 2018; 560 (7717): 228-232.      


A gene regulatory network underlying the formation of pre-placodal ectoderm in Xenopus laevis., Maharana SK, Schlosser G., BMC Biol. July 16, 2018; 16 (1): 79.                            


Xenopus ADAM19 regulates Wnt signaling and neural crest specification by stabilizing ADAM13., Li J, Perfetto M, Neuner R, Bahudhanapati H, Christian L, Mathavan K, Bridges LC, Alfandari D, Alfandari D, Wei S., Development. April 4, 2018; 145 (7):                         


PAWS1 controls Wnt signalling through association with casein kinase 1α., Bozatzi P, Dingwell KS, Wu KZ, Cooper F, Cummins TD, Hutchinson LD, Vogt J, Wood NT, Macartney TJ, Varghese J, Gourlay R, Campbell DG, Smith JC, Sapkota GP., EMBO Rep. April 1, 2018; 19 (4):                             


Ketamine Modulates Zic5 Expression via the Notch Signaling Pathway in Neural Crest Induction., Shi Y, Shi Y, Li J, Chen C, Xia Y, Li Y, Zhang P, Xu Y, Xu Y, Li T, Zhou W, Song W., Front Mol Neurosci. February 7, 2018; 11 9.          


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.                                


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.                          


Conserved gene regulatory module specifies lateral neural borders across bilaterians., Li Y, Zhao D, Horie T, Chen G, Bao H, Chen S, Liu W, Horie R, Liang T, Dong B, Feng Q, Tao Q, Tao Q, Liu X., Proc Natl Acad Sci U S A. August 1, 2017; 114 (31): E6352-E6360.      


Genome-wide analysis of dorsal and ventral transcriptomes of the Xenopus laevis gastrula., Ding Y, Colozza G, Zhang K, Moriyama Y, Ploper D, Sosa EA, Benitez MDJ, De Robertis EM., Dev Biol. June 15, 2017; 426 (2): 176-187.                                  


Identification of new regulators of embryonic patterning and morphogenesis in Xenopus gastrulae by RNA sequencing., Popov IK, Kwon T, Crossman DK, Crowley MR, Wallingford JB, Chang C., Dev Biol. June 15, 2017; 426 (2): 429-441.                    


Noggin is required for first pharyngeal arch differentiation in the frog Xenopus tropicalis., Young JJ, Kjolby RAS, Wu G, Wong D, Hsu SW, Harland RM., Dev Biol. June 15, 2017; 426 (2): 245-254.                


no privacy, a Xenopus tropicalis mutant, is a model of human Hermansky-Pudlak Syndrome and allows visualization of internal organogenesis during tadpole development., Nakayama T, Nakajima K, Cox A, Fisher M, Fisher M, Howell M, Fish MB, Yaoita Y, Grainger RM., Dev Biol. June 15, 2017; 426 (2): 472-486.                      


Genomic integration of Wnt/β-catenin and BMP/Smad1 signaling coordinates foregut and hindgut transcriptional programs., Stevens ML, Chaturvedi P, Rankin SA, Rankin SA, Macdonald M, Jagannathan S, Yukawa M, Barski A, Zorn AM., Development. April 1, 2017; 144 (7): 1283-1295.                            


Ubiquitin C-terminal hydrolase37 regulates Tcf7 DNA binding for the activation of Wnt signalling., Han W, Lee H, Lee H, Han JK., Sci Rep. February 15, 2017; 7 42590.                        


Pa2G4 is a novel Six1 co-factor that is required for neural crest and otic development., Neilson KM, Abbruzzesse G, Kenyon K, Bartolo V, Krohn P, Alfandari D, Alfandari D, Moody SA., Dev Biol. January 15, 2017; 421 (2): 171-182.                    


Apolipoprotein C-I mediates Wnt/Ctnnb1 signaling during neural border formation and is required for neural crest development., Yokota C, Åstrand C, Takahashi S, Hagey DW, Stenman JM., Int J Dev Biol. January 1, 2017; 61 (6-7): 415-425.                      


Tril targets Smad7 for degradation to allow hematopoietic specification in Xenopus embryos., Green YS, Kwon S, Mimoto MS, Xie Y, Christian JL., Development. November 1, 2016; 143 (21): 4016-4026.                            


Ror2 signaling is required for local upregulation of GDF6 and activation of BMP signaling at the neural plate border., Schille C, Bayerlová M, Bleckmann A, Schambony A., Development. September 1, 2016; 143 (17): 3182-94.                          


Sf3b4-depleted Xenopus embryos: A model to study the pathogenesis of craniofacial defects in Nager syndrome., Devotta A, Juraver-Geslin H, Gonzalez JA, Hong CS, Saint-Jeannet JP., Dev Biol. July 15, 2016; 415 (2): 371-382.                      


Musculocontractural Ehlers-Danlos syndrome and neurocristopathies: dermatan sulfate is required for Xenopus neural crest cells to migrate and adhere to fibronectin., Gouignard N, Maccarana M, Strate I, von Stedingk K, Malmström A, Pera EM., Dis Model Mech. June 1, 2016; 9 (6): 607-20.                                      


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.            


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.                                        


Insulin-like factor regulates neural induction through an IGF1 receptor-independent mechanism., Haramoto Y, Takahashi S, Oshima T, Onuma Y, Ito Y, Asashima M., Sci Rep. September 21, 2015; 5 11603.                                  

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