Add to ORKGA key determinant of overall morphogenesis in flowering plants such as Arabidopsis thaliana is the shoot apical meristem (growing tip of a shoot). Gene regulation networks can be used to model this system. We exhibit a very preliminary two-dimensional model including gene regulation and intercellular signaling, but omitting cell division and dynamical geometry. The model can be trained to have three stable regions of gene expression corresponding to the central zone, peripheral zone, and rib meristem. We also discuss a space-engineering motivation for studying and controlling the morphogenesis of plants using such computational models
Morphogenesis is the creation of form, a complex process requiring the integration of genetics, mech...
The generation of pattern and form in a developing organism results from a combination of interactin...
Plants maintain stem cells in their meristems as a source for new undifferentiated cells throughout ...
Motivation: The use of computer models for the understanding of biomolecular systems is increasingly...
The shoot apical meristem of Arabidopsis thaliana is an example of a developmental system which can ...
The study of phyllotactic patterns have a long history, but the bulk of our detailed understanding o...
The shoot apical meristem (SAM) of Arabidopsis thaliana is an example of a developmental system whic...
The Shoot Apical Meristem (SAM) of plants is the biological target for a mathematical modeling of de...
Stem cells in the plant shoot are maintained via a gene regulatory feedback network, and perturbatio...
Diffusion du document : UMR AMAPNational audienceShoot apical meristems (SAMs) are populations of di...
Shoot apical meristems are populations of dividing, undifferentiated cells that generate organs at t...
The growth and development of plants exhibits a striking symmetry, visible in the regular arrangemen...
Meristems continually supply new cells for post-embryonic plant development and coordinate the initi...
Abstract. Understanding the self-regulatory mechanisms controlling the spatial and temporal structur...
The research presented in this thesis uses computational techniques to heighten our comprehension of...
Morphogenesis is the creation of form, a complex process requiring the integration of genetics, mech...
The generation of pattern and form in a developing organism results from a combination of interactin...
Plants maintain stem cells in their meristems as a source for new undifferentiated cells throughout ...
Motivation: The use of computer models for the understanding of biomolecular systems is increasingly...
The shoot apical meristem of Arabidopsis thaliana is an example of a developmental system which can ...
The study of phyllotactic patterns have a long history, but the bulk of our detailed understanding o...
The shoot apical meristem (SAM) of Arabidopsis thaliana is an example of a developmental system whic...
The Shoot Apical Meristem (SAM) of plants is the biological target for a mathematical modeling of de...
Stem cells in the plant shoot are maintained via a gene regulatory feedback network, and perturbatio...
Diffusion du document : UMR AMAPNational audienceShoot apical meristems (SAMs) are populations of di...
Shoot apical meristems are populations of dividing, undifferentiated cells that generate organs at t...
The growth and development of plants exhibits a striking symmetry, visible in the regular arrangemen...
Meristems continually supply new cells for post-embryonic plant development and coordinate the initi...
Abstract. Understanding the self-regulatory mechanisms controlling the spatial and temporal structur...
The research presented in this thesis uses computational techniques to heighten our comprehension of...
Morphogenesis is the creation of form, a complex process requiring the integration of genetics, mech...
The generation of pattern and form in a developing organism results from a combination of interactin...
Plants maintain stem cells in their meristems as a source for new undifferentiated cells throughout ...