Add to ORKGInternational audienceRoot architecture plays an important role in water and nutrient acquisition and in the ability of the plant to adapt to the soil. Lateral root development is the main determinant of the shape of the root system and is controlled by external factors such as nutrient concentration. Here it is shown that lateral root initiation and root gravitropism, two processes that are regulated by auxin, are co-regulated in Arabidopsis. A mathematical model was generated that can predict the effects of gravistimulations on lateral root initiation density and suggests that lateral root initiation is controlled by an inhibitory fields mechanism. Moreover, gene transactivation experiments suggest a mechanism involving a single auxin tra...
The architecture of a plant's root system, established postembryonically, results from both coordina...
Most research on gravity responses in plants has focused on primary roots and shoots, which typicall...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
International audienceRoot architecture plays an important role in water and nutrient acquisition an...
UMR 1098 DAP, Equipe AFEF ‘Architecture et Fonctionnement des Espèces fruitières’ ‘Team AFFS Archite...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
Lateral organ position along roots and shoots largely determines plant architecture, and depends on ...
In plants, the developmental mechanisms that regulate the positioning of lateral organs along the pr...
International audienceLateral root formation is a major determinant of root systems architecture. Th...
Root system architecture is an important determinant of below-ground resource capture and hence over...
SummaryAs soon as a seed germinates, plant growth relates to gravity to ensure that the root penetra...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
At the onset of lateral root initiation in Arabidopsis thaliana, the phytohormone auxin activates xy...
The architecture of a plant's root system, established postembryonically, results from both coordina...
Most research on gravity responses in plants has focused on primary roots and shoots, which typicall...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
International audienceRoot architecture plays an important role in water and nutrient acquisition an...
UMR 1098 DAP, Equipe AFEF ‘Architecture et Fonctionnement des Espèces fruitières’ ‘Team AFFS Archite...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
Lateral organ position along roots and shoots largely determines plant architecture, and depends on ...
In plants, the developmental mechanisms that regulate the positioning of lateral organs along the pr...
International audienceLateral root formation is a major determinant of root systems architecture. Th...
Root system architecture is an important determinant of below-ground resource capture and hence over...
SummaryAs soon as a seed germinates, plant growth relates to gravity to ensure that the root penetra...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
At the onset of lateral root initiation in Arabidopsis thaliana, the phytohormone auxin activates xy...
The architecture of a plant's root system, established postembryonically, results from both coordina...
Most research on gravity responses in plants has focused on primary roots and shoots, which typicall...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...