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Notch signalling and the synchronization of the somite segmentation clock

Yun-Jin Jiang, Birgit L. Aerne, Lucy Smithers, Catherine Haddon, David Ish-Horowicz and Julian Lewis ()
Additional contact information
Yun-Jin Jiang: Vertebrate Development Laboratory and
Birgit L. Aerne: Imperial Cancer Research Fund
Lucy Smithers: Vertebrate Development Laboratory and
Catherine Haddon: Vertebrate Development Laboratory and
David Ish-Horowicz: Imperial Cancer Research Fund
Julian Lewis: Vertebrate Development Laboratory and

Nature, 2000, vol. 408, issue 6811, 475-479

Abstract: Abstract In vertebrates with mutations in the Notch cell–cell communication pathway, segmentation fails: the boundaries demarcating somites, the segments of the embryonic body axis, are absent or irregular1,2,3,4,5,6,7,8. This phenotype has prompted many investigations, but the role of Notch signalling in somitogenesis remains mysterious1,9,10,11,12. Somite patterning is thought to be governed by a “clock-and-wavefront” mechanism13: a biochemical oscillator (the segmentation clock) operates in the cells of the presomitic mesoderm, the immature tissue from which the somites are sequentially produced, and a wavefront of maturation sweeps back through this tissue, arresting oscillation and initiating somite differentiation14,15. Cells arrested in different phases of their cycle express different genes, defining the spatially periodic pattern of somites and controlling the physical process of segmentation1,16,17,18,19. Notch signalling, one might think, must be necessary for oscillation, or to organize subsequent events that create the somite boundaries. Here we analyse a set of zebrafish mutants and arrive at a different interpretation: the essential function of Notch signalling in somite segmentation is to keep the oscillations of neighbouring presomitic mesoderm cells synchronized.

Date: 2000
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DOI: 10.1038/35044091

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