Root-expressed nitrate transporters work for the uptake of nitrogen when nitrate is present as the main nitrogen source in the soil. In Arabidopsis roots, high-affinity nitrate transporter, NRT2.1, is transcriptionally activated by nitrate, suggesting significance of its presence as a major facilitator for the acquisition of nitrate; however information on upstream regulatory factors that may control the expression of NRT2.1 is still limited. In this study, we focused on transcription factors that can modulate the transcript levels of NRT2.1. A transposon-tagged collection of transcription factors of Arabidopsis was screened by RT-PCR to monitor the NRT2.1 transcript levels, allowing us to identify a loss-of-function mutant of AUXIN RESPONC...
Localized proliferation of lateral roots in NO-rich patches is a striking example of the nutrient-in...
Abstract Nitrate is not only an important nutrient but also a signaling molecule for plants. A few o...
The high affinity nitrate transport system in Arabidopsis thaliana involves one gene and potentially...
International audienceIn agricultural systems, nitrate is the main source of nitrogen available for ...
In Arabidopsis (Arabidopsis thaliana), the NRT2.1 gene codes for the main component of the root nitr...
We show that NITRATE REGULATORY GENE2 (NRG2), which we identified using forward genetics, mediates n...
Plants are able to modulate root growth and development to optimize their nitrogen nutrition. In Ara...
As a crucial nitrogen source, nitrate (NO3−) is a key nutrient for plants. Accordingly, root systems...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
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...
Nitrate is not only an important nutrient but also a signaling molecule for plants. A few of key mol...
Nitrate uptake by the roots is under systemic feedback repression by high nitrogen (N) status of the...
Localized proliferation of lateral roots in NO3--rich patches is a striking example of the nutrient-...
AbstractExpression analyses of Nrt2 plant genes have shown a strict correlation with root nitrate in...
Localized proliferation of lateral roots in NO-rich patches is a striking example of the nutrient-in...
Abstract Nitrate is not only an important nutrient but also a signaling molecule for plants. A few o...
The high affinity nitrate transport system in Arabidopsis thaliana involves one gene and potentially...
International audienceIn agricultural systems, nitrate is the main source of nitrogen available for ...
In Arabidopsis (Arabidopsis thaliana), the NRT2.1 gene codes for the main component of the root nitr...
We show that NITRATE REGULATORY GENE2 (NRG2), which we identified using forward genetics, mediates n...
Plants are able to modulate root growth and development to optimize their nitrogen nutrition. In Ara...
As a crucial nitrogen source, nitrate (NO3−) is a key nutrient for plants. Accordingly, root systems...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
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...
Nitrate is not only an important nutrient but also a signaling molecule for plants. A few of key mol...
Nitrate uptake by the roots is under systemic feedback repression by high nitrogen (N) status of the...
Localized proliferation of lateral roots in NO3--rich patches is a striking example of the nutrient-...
AbstractExpression analyses of Nrt2 plant genes have shown a strict correlation with root nitrate in...
Localized proliferation of lateral roots in NO-rich patches is a striking example of the nutrient-in...
Abstract Nitrate is not only an important nutrient but also a signaling molecule for plants. A few o...
The high affinity nitrate transport system in Arabidopsis thaliana involves one gene and potentially...