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The TEMPO project investigates how plants use auxin hormone exposure history to regulate the timing of organ formation, known as plastochron. By employing advanced imaging, synthetic biology, and computational modeling, the project aims to uncover the mechanisms behind this process and explore ways to manipulate the ti…
Time is central to the development of the body plan of multicellular organisms.
One prominent developmental timing mechanism is the rhythmic, iterative addition of tissues and organs.
While the tempo of rhythmic construction is often set by developmental clocks, plants use a unique mechanism in the shoot, whereby rhythmic organogenesis emerges from dynamic changes in the distribution of the hormone auxin.
High auxin levels trigger organogenesis but, contrary to a long-standing theory, the period…
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
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