Add to ORKGIn seed plants, shoot branching is initiated by the formation of new meristems in the axils of leaves, which subsequently develop into new axes of growth. This study describes the genetic control of axillary meristem formation by the LATERAL SUPPRESSOR (LAS) gene in Arabidopsis thaliana.]as mutants show a novel phenotype that is characterized by the inability to form lateral shoots during vegetative development. The analysis shows that axillary meristem formation is differently regulated during different phases of development. During reproductive development, axillary meristems initiate in close proximity to the shoot apical meristem and do not require LAS function. In contrast, during the vegetative phase, axillary meristems initiate at a ...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
In seed plants, shoot branching is initiated by the formation of new meristems in the axils of leave...
The genetic regulation of axillary meristem (AM) initiation is highly conserved throughout the major...
The AXR1 gene of Arabidopsis is required for many auxin responses. The highly branched shoot phenoty...
Plant shoots elaborate their adult form by selective control over the growth of both their primary s...
Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary zone...
International audienceAerial plant architecture is predominantly determined by shoot branching and l...
The wild sunflower (Helianthus annuus) plants develop a highly branched form with numerous small flo...
The shoot apical meristem, a small dome-shaped structure at the shoot apex of higher plants, is esta...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Unlike metazoan systems, plants sustain growth throughout their life by the division of undifferenti...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Leaves originate from the shoot apical meristem, a small mound of undifferentiated tissue at the tip...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...
In seed plants, shoot branching is initiated by the formation of new meristems in the axils of leave...
The genetic regulation of axillary meristem (AM) initiation is highly conserved throughout the major...
The AXR1 gene of Arabidopsis is required for many auxin responses. The highly branched shoot phenoty...
Plant shoots elaborate their adult form by selective control over the growth of both their primary s...
Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary zone...
International audienceAerial plant architecture is predominantly determined by shoot branching and l...
The wild sunflower (Helianthus annuus) plants develop a highly branched form with numerous small flo...
The shoot apical meristem, a small dome-shaped structure at the shoot apex of higher plants, is esta...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Unlike metazoan systems, plants sustain growth throughout their life by the division of undifferenti...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Leaves originate from the shoot apical meristem, a small mound of undifferentiated tissue at the tip...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
<p>Leaf axil patterning occurs concomitantly with leaf development and takes place at the boundary z...
Lateral root formation is a major determinant of root systems architecture. The degree of root branc...