How molecular patterning scales to organ size is highly debated in developmental biology. We explore this question for the characteristic gene expression domains of the plant stem cell niche residing in the shoot apical meristem. We show that a combination of signals originating from the epidermal cell layer can correctly pattern the key gene expression domains and notably leads to adaptive scaling of these domains to the size of the tissue. Using live imaging, we experimentally confirm this prediction. The identified mechanism is also sufficient to explain de novo stem cell niches in emerging flowers. Our findings suggest that the deformation of the tissue transposes meristem geometry into an instructive scaling and positional input for th...
The shape and function of plant cells are thought to be closely related. The puzzle-shaped epiderma...
The shoot apical meristem (SAM) is a small population of stem cells that continuously generates orga...
Seed plants have a remarkable capability to produce axillary meristems (AM) in the leaf axils, howev...
International audienceHow molecular patterning scales to organ size is highly debated in development...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
A long-standing question in plants and animals is how spatial patterns are maintained within stem ce...
Stem cells in the plant shoot are maintained via a gene regulatory feedback network, and perturbatio...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
In multicellular organisms, a long-standing question is how spatial patterns of distinct cell types ...
International audienceThe shoot apical meristem (SAM) of angiosperm plants is a small, highly organi...
International audienceThe shape and function of plant cells are often highly interdependent. The puz...
SummaryThe origin of the stem is a major but poorly understood aspect of plant development, partly b...
In plants, apical meristems allow continuous growth along the body axis. Within the root apical meri...
Cell size and growth kinetics are fundamental cellular properties with important physiological impli...
The shape and function of plant cells are thought to be closely related. The puzzle-shaped epiderma...
The shoot apical meristem (SAM) is a small population of stem cells that continuously generates orga...
Seed plants have a remarkable capability to produce axillary meristems (AM) in the leaf axils, howev...
International audienceHow molecular patterning scales to organ size is highly debated in development...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
A long-standing question in plants and animals is how spatial patterns are maintained within stem ce...
Stem cells in the plant shoot are maintained via a gene regulatory feedback network, and perturbatio...
The plant shoot apical meristem holds a stem cell niche from which all aerial organs originate. Usin...
In multicellular organisms, a long-standing question is how spatial patterns of distinct cell types ...
International audienceThe shoot apical meristem (SAM) of angiosperm plants is a small, highly organi...
International audienceThe shape and function of plant cells are often highly interdependent. The puz...
SummaryThe origin of the stem is a major but poorly understood aspect of plant development, partly b...
In plants, apical meristems allow continuous growth along the body axis. Within the root apical meri...
Cell size and growth kinetics are fundamental cellular properties with important physiological impli...
The shape and function of plant cells are thought to be closely related. The puzzle-shaped epiderma...
The shoot apical meristem (SAM) is a small population of stem cells that continuously generates orga...
Seed plants have a remarkable capability to produce axillary meristems (AM) in the leaf axils, howev...
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