Add to ORKGIn Arabidopsis thaliana, lateral roots (LRs) initiate acropetally and their dynamic development forms the basis on which root system architecture is elaborated. This thesis work focuses on revealing the underlying molecular network of how redundant PLETHORA (PLT) genes, encode APETALA2 (AP2)-domain transcription factors, jointly control rhizotaxis and LR outgrowth. Rhizotaxis represents the spatial distribution of lateral root primordia (LRP) and LRs along primary roots. LR outgrowth, which is staged according to the number of radial cell layers, is defined as a ‘primordium-intrinsic’ establishment of new organ tissues and meristem in an orthogonal axis to the parental roots. PLT3, PLT5 and PLT7 prevent the formation of LRP close to one ano...
Lateral roots (LRs) are an important part of plant root systems. In dicots, for example, after plant...
We have identified a gene, Lateral Root Development 3 (LRD3), that is important for maintaining a ba...
International audienceA large number of genes involved in lateral root (LR) organogenesis have been ...
Plant development is characterized by repeated initiation of meristems, regions of dividing cells th...
SummaryBackgroundThe juxtaposition of newly formed primordia in the root and shoot differs greatly, ...
Background: The juxtaposition of newly formed primordia in the root and shoot differs greatly, but t...
Background. The juxtaposition of newly formed primordia in the root and shoot differs greatly, but ...
Lateral roots (LRs) are crucial for increasing the surface area of root systems to explore heterogen...
Plants, similarly to animals, form polarized axes during embryogenesis on which cell differentiation...
The mature Arabidopsis embryo contains two stem cell niches that upon germination bring forth and ma...
The experiments presented in this thesis topic the role of transcription factor family members in re...
One key factor defining root system architecture is root branching, i.e., the process of the formati...
Lateral roots (LRs) are an important part of plant root systems. In dicots, for example, after plant...
We have identified a gene, Lateral Root Development 3 (LRD3), that is important for maintaining a ba...
International audienceA large number of genes involved in lateral root (LR) organogenesis have been ...
Plant development is characterized by repeated initiation of meristems, regions of dividing cells th...
SummaryBackgroundThe juxtaposition of newly formed primordia in the root and shoot differs greatly, ...
Background: The juxtaposition of newly formed primordia in the root and shoot differs greatly, but t...
Background. The juxtaposition of newly formed primordia in the root and shoot differs greatly, but ...
Lateral roots (LRs) are crucial for increasing the surface area of root systems to explore heterogen...
Plants, similarly to animals, form polarized axes during embryogenesis on which cell differentiation...
The mature Arabidopsis embryo contains two stem cell niches that upon germination bring forth and ma...
The experiments presented in this thesis topic the role of transcription factor family members in re...
One key factor defining root system architecture is root branching, i.e., the process of the formati...
Lateral roots (LRs) are an important part of plant root systems. In dicots, for example, after plant...
We have identified a gene, Lateral Root Development 3 (LRD3), that is important for maintaining a ba...
International audienceA large number of genes involved in lateral root (LR) organogenesis have been ...