Add to ORKGLeaves of Arabidopsis thaliana bear trichomes, or hairs, which are spaced in an approximately regular pattern on their adaxial side. Trichome cells differentiate in the fast-growing basal part of the leaf and do not divide. The regular spacing of trichomes is controlled by cell-to-cell interactions (Larkin et al., 1997). We created simulation models of these interactions to gain a better understanding of the patterning process. The models operate on
Leaf and stem trichomes (epidermal hairs) in the flowering plant Arabidopsis provide an excellent mo...
International audienceA landmark of developmental biology is the production of reproducible shapes, ...
The growth and development of plants exhibits a striking symmetry, visible in the regular arrangemen...
The leaf hairs (trichomes) on the aerial surface of many plant species play important roles in phyto...
<div><p>Trichomes are leaf hairs that are formed by single cells on the leaf surface. They are known...
Trichomes are leaf hairs that are formed by single cells on the leaf surface. They are known to be i...
While pattern formation is studied in various areas of biology, little is known about the noise lead...
Many spatial patterns in biology arise through differentiation of selected cells within a tissue, wh...
While pattern formation is studied in various areas of biology, little is known about the intrinsic ...
Trichome patterning in Arabidopsis thaliana is a potential model system to study two dimensional pa...
AbstractThe unicellular three-branched trichomes, or ‘hairs’, of Arabidopsis provide a model system ...
While pattern formation is studied in various areas of biology, little is known about the noise lead...
Arabidopsis (Arabidopsis thaliana) leaf trichomes are unicellular structures with a well-studied dev...
Trichome patterning in Arabidopsis serves as a model system to study how single cells are selected w...
Plant development is characterized by a multitude of regulatory processes. However, only a minority ...
Leaf and stem trichomes (epidermal hairs) in the flowering plant Arabidopsis provide an excellent mo...
International audienceA landmark of developmental biology is the production of reproducible shapes, ...
The growth and development of plants exhibits a striking symmetry, visible in the regular arrangemen...
The leaf hairs (trichomes) on the aerial surface of many plant species play important roles in phyto...
<div><p>Trichomes are leaf hairs that are formed by single cells on the leaf surface. They are known...
Trichomes are leaf hairs that are formed by single cells on the leaf surface. They are known to be i...
While pattern formation is studied in various areas of biology, little is known about the noise lead...
Many spatial patterns in biology arise through differentiation of selected cells within a tissue, wh...
While pattern formation is studied in various areas of biology, little is known about the intrinsic ...
Trichome patterning in Arabidopsis thaliana is a potential model system to study two dimensional pa...
AbstractThe unicellular three-branched trichomes, or ‘hairs’, of Arabidopsis provide a model system ...
While pattern formation is studied in various areas of biology, little is known about the noise lead...
Arabidopsis (Arabidopsis thaliana) leaf trichomes are unicellular structures with a well-studied dev...
Trichome patterning in Arabidopsis serves as a model system to study how single cells are selected w...
Plant development is characterized by a multitude of regulatory processes. However, only a minority ...
Leaf and stem trichomes (epidermal hairs) in the flowering plant Arabidopsis provide an excellent mo...
International audienceA landmark of developmental biology is the production of reproducible shapes, ...
The growth and development of plants exhibits a striking symmetry, visible in the regular arrangemen...