During embryonic development, temporal and spatial cues are coordinated to generate a segmented body axis. In sequentially segmenting animals, the rhythm of segmentation is reported to be controlled by the time scale of genetic oscillations that periodically trigger new segment formation. However, we present real-time measurements of genetic oscillations in zebrafish embryos showing that their time scale is not sufficient to explain the temporal period of segmentation. A second time scale, the rate of tissue shortening, contributes to the period of segmentation through a Doppler effect. This contribution is modulated by a gradual change in the oscillation profile across the tissue. We conclude that the rhythm of segmentation is an emergent property controlled by the time scale of genetic oscillations, the change of oscillation profile, and tissue shortening.
In vertebrate development, the sequential and rhythmic segmentation of the body axis
is regulated by a “segmentation clock”. This clock is comprised of a population of
coordinated oscillating cells that together produce rhythmic gene expression patterns
in the embryo. Whether individual cells autonomously maintain oscillations, or
whether oscillations depend on signals from neighboring cells is unknown. Using a
transgenic zebrafish reporter line for the cyclic transcription factor Her1, we
recorded single tailbud cells in vitro. We demonstrate that individual cells can
behave as autonomous cellular oscillators. We described the observed variability in
cell behavior using a theory of generic oscillators with correlated noise. Single
cells have longer periods and lower precision than the tissue, highlighting the role
of collective processes in the segmentation clock. Our work reveals a population of
cells from the zebrafish segmentation clock that behave as self-sustained, autonomous
oscillators with distinctive noisy dynamics.DOI:
http://dx.doi.org/10.7554/eLife.08438.001
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