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Journal Abstract Search

269 related items for PubMed ID: 17652354

  • 1. Cranial neural crest cells regulate head muscle patterning and differentiation during vertebrate embryogenesis.
    Rinon A, Lazar S, Marshall H, Büchmann-Møller S, Neufeld A, Elhanany-Tamir H, Taketo MM, Sommer L, Krumlauf R, Tzahor E.
    Development; 2007 Sep; 134(17):3065-75. PubMed ID: 17652354
    [Abstract] [Full Text] [Related]

  • 2. Relationship between neural crest cells and cranial mesoderm during head muscle development.
    Grenier J, Teillet MA, Grifone R, Kelly RG, Duprez D.
    PLoS One; 2009 Sep; 4(2):e4381. PubMed ID: 19198652
    [Abstract] [Full Text] [Related]

  • 3. Neural crest and the patterning of vertebrate craniofacial muscles.
    Ziermann JM, Diogo R, Noden DM.
    Genesis; 2018 Jun; 56(6-7):e23097. PubMed ID: 29659153
    [Abstract] [Full Text] [Related]

  • 4. Neural tube derived signals and Fgf8 act antagonistically to specify eye versus mandibular arch muscles.
    von Scheven G, Alvares LE, Mootoosamy RC, Dietrich S.
    Development; 2006 Jul; 133(14):2731-45. PubMed ID: 16775000
    [Abstract] [Full Text] [Related]

  • 5. The contribution of Islet1-expressing splanchnic mesoderm cells to distinct branchiomeric muscles reveals significant heterogeneity in head muscle development.
    Nathan E, Monovich A, Tirosh-Finkel L, Harrelson Z, Rousso T, Rinon A, Harel I, Evans SM, Tzahor E.
    Development; 2008 Feb; 135(4):647-57. PubMed ID: 18184728
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  • 8. Differentiation of avian craniofacial muscles: I. Patterns of early regulatory gene expression and myosin heavy chain synthesis.
    Noden DM, Marcucio R, Borycki AG, Emerson CP.
    Dev Dyn; 1999 Oct; 216(2):96-112. PubMed ID: 10536051
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  • 9. p53 coordinates cranial neural crest cell growth and epithelial-mesenchymal transition/delamination processes.
    Rinon A, Molchadsky A, Nathan E, Yovel G, Rotter V, Sarig R, Tzahor E.
    Development; 2011 May; 138(9):1827-38. PubMed ID: 21447558
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  • 11. Spatial relations between avian craniofacial neural crest and paraxial mesoderm cells.
    Evans DJ, Noden DM.
    Dev Dyn; 2006 May; 235(5):1310-25. PubMed ID: 16395689
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  • 12. Comparative analysis of neural crest cell death, migration, and function during vertebrate embryogenesis.
    Kulesa P, Ellies DL, Trainor PA.
    Dev Dyn; 2004 Jan; 229(1):14-29. PubMed ID: 14699574
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  • 13. The lateral plate mesoderm: a novel source of skeletal muscle.
    Pu Q, Patel K, Huang R.
    Results Probl Cell Differ; 2015 Jan; 56():143-63. PubMed ID: 25344670
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  • 14. mef2ca is required in cranial neural crest to effect Endothelin1 signaling in zebrafish.
    Miller CT, Swartz ME, Khuu PA, Walker MB, Eberhart JK, Kimmel CB.
    Dev Biol; 2007 Aug 01; 308(1):144-57. PubMed ID: 17574232
    [Abstract] [Full Text] [Related]

  • 15. Neural crest cell lineage restricts skeletal muscle progenitor cell differentiation through Neuregulin1-ErbB3 signaling.
    Van Ho AT, Hayashi S, Bröhl D, Auradé F, Rattenbach R, Relaix F.
    Dev Cell; 2011 Aug 16; 21(2):273-87. PubMed ID: 21782525
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  • 16. Cranial neural crest and development of the head skeleton.
    Knight RD, Schilling TF.
    Adv Exp Med Biol; 2006 Aug 16; 589():120-33. PubMed ID: 17076278
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  • 17. FGF8 signaling sustains progenitor status and multipotency of cranial neural crest-derived mesenchymal cells in vivo and in vitro.
    Shao M, Liu C, Song Y, Ye W, He W, Yuan G, Gu S, Lin C, Ma L, Zhang Y, Tian W, Hu T, Chen Y.
    J Mol Cell Biol; 2015 Oct 16; 7(5):441-54. PubMed ID: 26243590
    [Abstract] [Full Text] [Related]

  • 18. Normal and aberrant craniofacial myogenesis by grafted trunk somitic and segmental plate mesoderm.
    Borue X, Noden DM.
    Development; 2004 Aug 16; 131(16):3967-80. PubMed ID: 15269174
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  • 19. TGFbeta-mediated FGF signaling is crucial for regulating cranial neural crest cell proliferation during frontal bone development.
    Sasaki T, Ito Y, Bringas P, Chou S, Urata MM, Slavkin H, Chai Y.
    Development; 2006 Jan 16; 133(2):371-81. PubMed ID: 16368934
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