Add to ORKGThe spatial arrangement of vascular bundles varies between plant species and organs. A novel reaction-diffusion 2D model is presented defining a set of logical and functional rules able to simulate the differentiation of procambium, phloem and xylem. The model shows that a common mechanism, lying behind the formation of vascular tissues, is able to qualitatively reproduce most stelar structures observed
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
<p>Vascular tissues in plants are crucial to provide physical support and to transport water, sugars...
<div><p>Plant vascular meristems are sets of pluripotent cells that enable radial growth by giving r...
The spatial arrangement of vascular bundles varies between plant species and organs. A novel reactio...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Spontaneous spatial pattern formation as a result of dynamic interactions is common in nature at all...
Spontaneous spatial pattern formation as a result of dynamic interactions is common in nature at all...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Vascular tissue in plants provides a resource distribution network for water and nutrients that exhi...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
Vascular plants vary over 12 orders of magnitude in body mass and exhibit complex branching. We prov...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
A fundamental question in developmental biology is how spatial patterns are self-organized from homo...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
<p>Vascular tissues in plants are crucial to provide physical support and to transport water, sugars...
<div><p>Plant vascular meristems are sets of pluripotent cells that enable radial growth by giving r...
The spatial arrangement of vascular bundles varies between plant species and organs. A novel reactio...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Spontaneous spatial pattern formation as a result of dynamic interactions is common in nature at all...
Spontaneous spatial pattern formation as a result of dynamic interactions is common in nature at all...
Background and Aims The process of vascular development in plants results in the formation of a spec...
Vascular tissue in plants provides a resource distribution network for water and nutrients that exhi...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
Vascular plants vary over 12 orders of magnitude in body mass and exhibit complex branching. We prov...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
A fundamental question in developmental biology is how spatial patterns are self-organized from homo...
Vascular tissues in plants are crucial to provide physical support and to transport water, sugars an...
<p>Vascular tissues in plants are crucial to provide physical support and to transport water, sugars...
<div><p>Plant vascular meristems are sets of pluripotent cells that enable radial growth by giving r...