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A beta-catenin gradient links the clock and wavefront systems in mouse embryo segmentation

  1. Author:
    Aulehla, A.
    Wiegraebe, W.
    Baubet, V.
    Wahl, M. B.
    Deng, C. X.
    Taketo, M.
    Lewandoski, M.
    Pourquie, O.

  2. Author Address

    Aulehla, Alexander, Wiegraebe, Winfried, Wahl, Matthias B.; Pourquie, Olivier] Stowers Inst Med Res, Kansas City, MO 64110 USA. [Baubet, Valerie] Wistar Inst Anat & Biol, Philadelphia, PA 19104 USA. [Deng, Chuxia] NIDDKD, Genet Dev & Dis Branch, NIH, Bethesda, MD 20892 USA. [Taketo, Makoto] Kyoto Univ, Grad Sch Med, Kyoto, Japan. [Lewandoski, Mark] NCI, Lab Canc & Dev Biol, NIH, Frederick, MD 21702 USA. [Pourquie, Olivier] Howard Hughes Med Inst, Kansas City, MO 64110 USA.
    1. Year: 2008
  2. Journal: Nature Cell Biology
    1. 10
    2. 2
    3. Pages: 186-193
  4. Type of Article: Article
  1. Abstract:

    Rhythmic production of vertebral precursors, the somites, causes bilateral columns of embryonic segments to form. This process involves a molecular oscillator - the segmentation clock - whose signal is translated into a spatial, periodic pattern by a complex signalling gradient system within the presomitic mesoderm (PSM). In mouse embryos, Wnt signalling has been implicated in both the clock and gradient mechanisms, but how the Wnt pathway can perform these two functions simultaneously remains unclear. Here, we use a yellow fluorescent protein (YFP)-based, real-time imaging system in mouse embryos to demonstrate that clock oscillations are independent of beta-catenin protein levels. In contrast, we show that the Wnt-signalling gradient is established through a nuclear beta-catenin protein gradient in the posterior PSM. This gradient of nuclear beta-catenin defines the size of the oscillatory field and controls key aspects of PSM maturation and segment formation, emphasizing the central role of Wnt signalling in this process.

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External Sources

  1. PMID: 18157121

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