Add to ORKGRoot systems can display variable architectures that contribute to survival strategies of plants. The model plant Arabidopsis thaliana possesses a tap root system, in which the primary root and lateral roots (LRs) are major architectural determinants. The phytohormone auxin fulfils multiple roles throughout LR development. In this review, we summarize recent advances in our understanding of four aspects of LR formation: (i) LR positioning, which determines the spatial distribution of lateral root primordia (LRP) and LRs along primary roots; (ii) LR initiation, encompassing the activation of nuclear migration in specified lateral root founder cells (LRFCs) up to the first asymmetric cell division; (iii) LR outgrowth, the 'primordium-intrinsi...
The establishment of a pre-pattern or competence to form new organs is a key feature of the postembr...
Root branching happens through the formation of new meristems out of a limited number of pericycle c...
The root system is a major determinant of a plant's access to water and nutrients. The architecture ...
Root systems can display variable architectures that contribute to survival strategies of plants. Th...
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...
International audienceLateral root formation is a major determinant of root systems architecture. Th...
Lateral roots (LRs) are crucial for increasing the surface area of root systems to explore heterogen...
Root system architecture depends on lateral root (LR) initiation that takes place in a relatively na...
International audienceLateral root initiation takes place deep within the parental root, requiring n...
Recent studies in the model plant Arabidopsis provide new insight into the regulation of root archit...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
The establishment of a pre-pattern or competence to form new organs is a key feature of the postembr...
The establishment of a pre-pattern or competence to form new organs is a key feature of the postembr...
Root branching happens through the formation of new meristems out of a limited number of pericycle c...
The root system is a major determinant of a plant's access to water and nutrients. The architecture ...
Root systems can display variable architectures that contribute to survival strategies of plants. Th...
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...
International audienceLateral root formation is a major determinant of root systems architecture. Th...
Lateral roots (LRs) are crucial for increasing the surface area of root systems to explore heterogen...
Root system architecture depends on lateral root (LR) initiation that takes place in a relatively na...
International audienceLateral root initiation takes place deep within the parental root, requiring n...
Recent studies in the model plant Arabidopsis provide new insight into the regulation of root archit...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
The developmental plasticity of the root system represents a key adaptive trait enabling plants to c...
The establishment of a pre-pattern or competence to form new organs is a key feature of the postembr...
The establishment of a pre-pattern or competence to form new organs is a key feature of the postembr...
Root branching happens through the formation of new meristems out of a limited number of pericycle c...
The root system is a major determinant of a plant's access to water and nutrients. The architecture ...