731 / 2019-05-10 21:19:00
A microtubule-mediated mechanical feedback controls leaf blade flattening
flower,mechanical model
Abstract Accepted
Jan TRAAS / RDP ENS-Lyon
Yuling Jiao / CAS
Hadrien Oliveri / RDP
Fei Du / CAS
Feng Zhao / RDP ENS-Lyon
Christophe Godin / RDP ENS-Lyon
Many plant species have thin leaf blades and axisymmetric elongating organs, such as stems and roots. Here, we provide evidence that a single mechanism can account for these fundamentally different organ shapes. We show that the three-dimensional geometry of leaves is governed by microtubule alignment along predicted mechanical stress patterns along internal walls. Depending on the primary shape of the primordium, this process has the potential to amplify an initial degree of flatness, or to promote the formation of nearly axisymmetric, mostly elongating organs. This mechanism may explain leaf evolution from branches, which is alternative to Zimmermann’s influential, but widely questioned, telome theory.
Important Date
  • Conference Date

    Jun 16

    2019

    to

    Jun 21

    2019

  • May 01 2019

    Draft paper submission deadline

  • Jun 21 2019

    Registration deadline

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