Plants achieve remarkable plasticity in shoot system architecture by regulating the activity of secondary shoot meristems, laid down in the axil of each leaf. Axillary meristem activity, and hence shoot branching, is regulated by a network of interacting hormonal signals that move through the plant. Among these, auxin, moving down the plant in the main stem, indirectly inhibits axillary bud outgrowth, and an as yet undefined hormone, the synthesis of which in Arabidopsis requires MAX1, MAX3, and MAX4, moves up the plant and also inhibits shoot branching. Since the axillary buds of max4 mutants are resistant to the inhibitory effects of apically supplied auxin, auxin and the MAX-dependent hormone must interact to inhibit branching.Here we sh...
The outgrowth of axillary buds into branches is regulated systemically via plant hormones and the de...
Abstract Shoot branching involves the coordinated regulation of the activity of meristems establishe...
<div><p>Plants continuously extend their root and shoot systems through the action of meristems at t...
SummaryBackgroundPlants achieve remarkable plasticity in shoot system architecture by regulating the...
In Arabidopsis (Arabidopsis thaliana), the carotenoid cleavage dioxygenases MORE AXILLARY GROWTH3 (M...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
The shoot systems of plants are built by the action of the primary shoot apical meristem, establishe...
Strigolactones (SLs), or their derivatives, were recently demonstrated to act as endogenous shoot br...
The shoot systems of plants are built by the action of the primary shoot apical meristem, establishe...
The Arabidopsis MORE AXILLARY BRANCHING 4 (MAX4) gene is required for the production of a long-range...
ABSTRACT Studies of apical dominance have benefited greatly from two-branch assays in pea and bean, ...
Plant shoots elaborate their adult form by selective control over the growth of both their primary s...
Shoot branching is the process by which axillary buds, located on the axil of a leaf, develop and fo...
SummaryThe plant shoot body plan is highly variable, depending on the degree of branching. Character...
The outgrowth of axillary buds into branches is regulated systemically via plant hormones and the de...
Abstract Shoot branching involves the coordinated regulation of the activity of meristems establishe...
<div><p>Plants continuously extend their root and shoot systems through the action of meristems at t...
SummaryBackgroundPlants achieve remarkable plasticity in shoot system architecture by regulating the...
In Arabidopsis (Arabidopsis thaliana), the carotenoid cleavage dioxygenases MORE AXILLARY GROWTH3 (M...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
A role for auxin in the regulation of shoot branching was described originally in the Thimann and Sk...
The shoot systems of plants are built by the action of the primary shoot apical meristem, establishe...
Strigolactones (SLs), or their derivatives, were recently demonstrated to act as endogenous shoot br...
The shoot systems of plants are built by the action of the primary shoot apical meristem, establishe...
The Arabidopsis MORE AXILLARY BRANCHING 4 (MAX4) gene is required for the production of a long-range...
ABSTRACT Studies of apical dominance have benefited greatly from two-branch assays in pea and bean, ...
Plant shoots elaborate their adult form by selective control over the growth of both their primary s...
Shoot branching is the process by which axillary buds, located on the axil of a leaf, develop and fo...
SummaryThe plant shoot body plan is highly variable, depending on the degree of branching. Character...
The outgrowth of axillary buds into branches is regulated systemically via plant hormones and the de...
Abstract Shoot branching involves the coordinated regulation of the activity of meristems establishe...
<div><p>Plants continuously extend their root and shoot systems through the action of meristems at t...