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FGF signaling acts upstream of the NOTCH and WNT signaling pathways to control segmentation clock oscillations in mouse somitogenesis

  1. Author:
    Wahl, M. B.
    Deng, C.
    Lewandoski, M.
    Pourquie, O.

  2. Author Address

    Stowers Inst Med Res, Kansas City, MO 64110 USA. NIDDK, Genet Dev & Dis Branch, NIH, Bethesda, MD 20892 USA. NCI, Lab Canc & Dev Biol, NIH, Frederick, MD 21702 USA. Howard Hughes Med Inst, Kansas City, MO 64110 USA.;Pourquie, O, Stowers Inst Med Res, Kansas City, MO 64110 USA.;olp@stowers-institute.org
    1. Year: 2007
    2. Date: Nov
  2. Journal: Development
    1. 134
    2. 22
    3. Pages: 4033-4041
  4. Type of Article: Article
  5. ISSN: 0950-1991
  1. Abstract:

    Fibroblast growth factor ( FGF) signaling plays a crucial role in vertebrate segmentation. The FGF pathway establishes a posterior-to-anterior signaling gradient in the presomitic mesoderm ( PSM), which controls cell maturation and is involved in the positioning of segmental boundaries. In addition, FGF signaling was shown to be rhythmically activated in the PSM in response to the segmentation clock. Here, we show that conditional deletion of the FGF receptor gene Fgfr1 abolishes FGF signaling in the mouse PSM, resulting in an arrest of the dynamic cyclic gene expression and ultimately leading to an arrest of segmentation. Pharmacological treatments disrupting FGF signaling in the PSM result in an immediate arrest of periodic WNT activation, whereas NOTCH-dependent oscillations stop only during the next oscillatory cycle. Together, these experiments provide genetic evidence for the role of FGF signaling in segmentation, and identify a signaling hierarchy controlling clock oscillations downstream of FGF signaling in the mouse.

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  1. View record in Web of ScienceĀ®
  2. WOS: 000250468700009

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