Add to ORKGRecent studies show that plant organ positioning may be mediated by localized concentrations of the plant hormone auxin. Auxin patterning in the shoot apical meristem is in turn brought about by the subcellular polar distribution of the putative auxin efflux mediator, PIN1. However, the question of what signals determine PIN1 polarization and how this gives rise to regular patterns of auxin concentration remains unknown. Here we address these questions by using mathematical modeling combined with confocal imaging. We propose a model that is based on the assumption that auxin influences the polarization of its own efflux within the meristem epidermis. We show that such a model is sufficient to create regular spatial patterns of auxin concent...
The plant hormone auxin is fundamental for plant growth, and its spatial distribution in plant tissu...
The plant hormone auxin plays a critical role in plant development. Central to its function is its d...
Spatial patterns of the hormone auxin are important drivers of plant development. The observed feedb...
Recent studies show that plant organ positioning may be mediated by localized concentrations of the ...
The phytohormone auxin is vital to plant growth and development. A unique property of auxin among al...
17 pages and 9 figures (Main Text), 9 pages and 4 figures (Supplementary Material), revised version ...
International audiencePlants continuously generate new organs through the activity of populations of...
International audienceThe shoot apical meristem (SAM) produces new aerial organs such as leaves and ...
Plants continuously generate new organs through the activity of populations of stem cells called mer...
The plant hormone auxin mediates developmental patterning by a mechanism that is based on active tra...
Plants continuously generate new organs through the activity of populations of stem cells called mer...
Phyllotaxis, the arrangement of leaves on a plant stem, is well known because of its beautiful geome...
The dynamic patterning of the plant hormone auxin and its efflux facilitator the PIN protein are the...
The plant hormone auxin is fundamental for plant growth, and its spatial distribution in plant tissu...
The plant hormone auxin plays a critical role in plant development. Central to its function is its d...
Spatial patterns of the hormone auxin are important drivers of plant development. The observed feedb...
Recent studies show that plant organ positioning may be mediated by localized concentrations of the ...
The phytohormone auxin is vital to plant growth and development. A unique property of auxin among al...
17 pages and 9 figures (Main Text), 9 pages and 4 figures (Supplementary Material), revised version ...
International audiencePlants continuously generate new organs through the activity of populations of...
International audienceThe shoot apical meristem (SAM) produces new aerial organs such as leaves and ...
Plants continuously generate new organs through the activity of populations of stem cells called mer...
The plant hormone auxin mediates developmental patterning by a mechanism that is based on active tra...
Plants continuously generate new organs through the activity of populations of stem cells called mer...
Phyllotaxis, the arrangement of leaves on a plant stem, is well known because of its beautiful geome...
The dynamic patterning of the plant hormone auxin and its efflux facilitator the PIN protein are the...
The plant hormone auxin is fundamental for plant growth, and its spatial distribution in plant tissu...
The plant hormone auxin plays a critical role in plant development. Central to its function is its d...
Spatial patterns of the hormone auxin are important drivers of plant development. The observed feedb...