Localized proliferation of lateral roots in NO3--rich patches is a striking example of the nutrient-induced plasticity of root development. In Arabidopsis, NO3- stimulation of lateral root elongation is apparently under the control of a NO3--signaling pathway involving the ANR1 transcription factor. ANR1 is thought to transduce the NO3- signal internally, but the upstream NO3- sensing system is unknown. Here, we show that mutants of the NRT1.1 nitrate transporter display a strongly decreased root colonization of NO3--rich patches, resulting from reduced lateral root elongation. This phenotype is not due to lower specific NO3- uptake activity in the mutants and is not suppressed when the NO3--rich patch is supplemented with an alternative N ...
Nitrate uptake by the roots is under systemic feedback repression by high nitrogen (N) status of the...
In a new study published in this issue of Developmental Cell, Krouk et al. reveal a surprising mecha...
Background Many plant species can modify their root architecture to enable them to forage for hetero...
Localized proliferation of lateral roots in NO-rich patches is a striking example of the nutrient-in...
Plants are able to modulate root growth and development to optimize their nitrogen nutrition. In Ara...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
In agricultural systems, nitrate is the main source of nitrogen available for plants. Besides its ro...
Up-regulation of the high-affinity transport system (HATS) for NO3– and stimulation of lateral root ...
In Arabidopsis the plasma membrane nitrate transceptor (transporter/receptor) NRT1.1 governs many ph...
As a crucial nitrogen source, nitrate (NO3−) is a key nutrient for plants. Accordingly, root systems...
Root-expressed nitrate transporters work for the uptake of nitrogen when nitrate is present as the m...
In Arabidopsis (Arabidopsis thaliana), the NRT2.1 gene codes for the main component of the root nitr...
Les plantes sont capables de percevoir dans leur environnement la disponibilité en nitrate (NO3-), u...
SummaryNitrate is both a nitrogen source for higher plants and a signal molecule regulating their de...
Root development is extremely sensitive to variations in nutrient supply, but the mechanisms are poo...
Nitrate uptake by the roots is under systemic feedback repression by high nitrogen (N) status of the...
In a new study published in this issue of Developmental Cell, Krouk et al. reveal a surprising mecha...
Background Many plant species can modify their root architecture to enable them to forage for hetero...
Localized proliferation of lateral roots in NO-rich patches is a striking example of the nutrient-in...
Plants are able to modulate root growth and development to optimize their nitrogen nutrition. In Ara...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
In agricultural systems, nitrate is the main source of nitrogen available for plants. Besides its ro...
Up-regulation of the high-affinity transport system (HATS) for NO3– and stimulation of lateral root ...
In Arabidopsis the plasma membrane nitrate transceptor (transporter/receptor) NRT1.1 governs many ph...
As a crucial nitrogen source, nitrate (NO3−) is a key nutrient for plants. Accordingly, root systems...
Root-expressed nitrate transporters work for the uptake of nitrogen when nitrate is present as the m...
In Arabidopsis (Arabidopsis thaliana), the NRT2.1 gene codes for the main component of the root nitr...
Les plantes sont capables de percevoir dans leur environnement la disponibilité en nitrate (NO3-), u...
SummaryNitrate is both a nitrogen source for higher plants and a signal molecule regulating their de...
Root development is extremely sensitive to variations in nutrient supply, but the mechanisms are poo...
Nitrate uptake by the roots is under systemic feedback repression by high nitrogen (N) status of the...
In a new study published in this issue of Developmental Cell, Krouk et al. reveal a surprising mecha...
Background Many plant species can modify their root architecture to enable them to forage for hetero...