205 results on '"Tillard, Pascal"'
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2. NRT2.1 C-terminus phosphorylation prevents root high affinity nitrate uptake activity in Arabidopsis thaliana
3. Localized osmotic stress activates systemic responses to N limitation in Medicago truncatula–Sinorhizobium symbiotic plants
4. Transcript Profiling in the chl1-5 Mutant of Arabidopsis Reveals a Role of the Nitrate Transporter NRT1.1 in the Regulation of Another Nitrate Transporter, NRT2.1
5. Heat Shock Protein HSP101 Affects the Release of Ribosomal Protein mRNAs for Recovery after Heat Shock
6. Regulation of Root Ion Transporters by Photosynthesis: Functional Importance and Relation with Hexokinase
7. Gene Expression of the NO₃⁻ Transporter NRT1.1 and the Nitrate Reductase NIA1 Is Repressed in Arabidopsis Roots by NO₂⁻, the Product of NO₃⁻ Reduction
8. Major Alterations of the Regulation of Root NO₃⁻ Uptake Are Associated with the Mutation of Nrt2.1 and Nrt2.2 Genes in Arabidopsis
9. Abolition of Posttranscriptional Regulation of Nitrate Reductase Partially Prevents the Decrease in Leaf NO₃⁻ Reduction When Photosynthesis Is Inhibited by CO₂ Deprivation, but Not in Darkness
10. Characterisation of the signalling pathways involved in the repression of root nitrate uptake by nitrate in Arabidopsis thaliana
11. Signaling pathways involved in the repression of root nitrate uptake by nitrate inArabidopsis thaliana
12. A Perspective on Plant Phenomics: Coupling Deep Learning and Near-Infrared Spectroscopy
13. Root system size and root hair length are key phenes for nitrate acquisition and biomass production across natural variation in Arabidopsis
14. A Perspective on plant phenomics: Coupling deep learning and near-infrared spectroscopy
15. Regulation of High-Affinity Nitrate Uptake in Roots of Arabidopsis Depends Predominantly on Posttranscriptional Control of the NRT2.1/NAR2.1 Transport System
16. Root system size and root hair length are key phenes for nitrate acquisition and biomass production across natural variation in Arabidopsis
17. Adaptation of Medicago truncatula to Nitrogen Limitation Is Modulated via Local and Systemic Nodule Developmental Responses
18. Mutation of the Arabidopsis NRT1.5 Nitrate Transporter Causes Defective Root-to-Shoot Nitrate Transport
19. Oxidative Pentose Phosphate Pathway-Dependent Sugar Sensing as a Mechanism for Regulation of Root Ion Transporters by Photosynthesis
20. Systemic Signaling of the Plant Nitrogen Status Triggers Specific Transcriptome Responses Depending on the Nitrogen Source in Medicago truncatula
21. Nitrate Efflux at the Root Plasma Membrane: Identification of an Arabidopsis Excretion Transporter
22. The Arabidopsis NRT1.1 Transporter Participates in the Signaling Pathway Triggering Root Colonization of Nitrate-Rich Patches
23. Regulation of the High-Affinity NO₃⁻ Uptake System by NRT1.1-Mediated NO₃⁻ Demand Signaling in Arabidopsis
24. Oilseed Rape Cultivars Show Diversity of Root Morphologies with the Potential for Better Capture of Nitrogen
25. A Central Role for the Nitrate Transporter NRT2.1 in the Integrated Morphological and Physiological Responses of the Root System to Nitrogen Limitation in Arabidopsis
26. Are phloem amino acids involved in the shoot to root control of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ uptake in Ricinus communis plants?
27. Oilseed Rape Cultivars Show Diversity of Root Morphologies with the Potential for Better Capture of Nitrogen
28. Diurnal regulation of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ uptake in soybean plants: IV. Dependence on current photosynthesis and sugar availability to the roots
29. Diurnal regulation of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ uptake in soybean plants: III. Implication of the Dijkshoorn—Ben Zioni model in relation with the diurnal changes in $\mathrm{N}{\mathrm{O}}_{3}^{-}$ assimilation
30. Root system size and root hair length are key phenes for nitrate acquisition and biomass production across natural variation in Arabidopsis.
31. Genome-wide analysis in response to nitrogen and carbon identifies regulators for root AtNRT2 transporters
32. Arabidopsis NRT1.1 Is a Bidirectional Transporter Involved in Root-to-Shoot Nitrate Translocation
33. Regulation of the nitrate transporter gene AtNRT2.1 in Arabidopsis thaliana: responses to nitrate, amino acids and developmental stage
34. Gene expression of the N[O.sub.3.sup.-] transporter NRT1.1 and the nitrate reductase NIA1 is repressed in Arabidopsis roots by N[O.sub.2.sup.-], the product of N[O.sub.3.sup.-] reduction
35. Responses of mature symbiotic nodules to the whole-plant systemic nitrogen signaling
36. Regulation of NRT2s transporter by the NRT1.1 dependent signaling pathway in response to high NO3
37. Genome-wide analysis in response to N and C identifies new regulators for root AtNRT2 transporters
38. Differential regulation of the NO3− and NH4+ transporter genes AtNrt2.1 and AtAmt1.1 in Arabidopsis: relation with long-distance and local controls by N status of the plant
39. Constitutive expression of a putative high-affinity nitrate transporter in Nicotiana plumbaginifolia : evidence for post-transcriptional regulation by a reduced nitrogen source
40. Molecular and functional regulation of two NO3− uptake systems by N- and C-status of Arabidopsis plants
41. Post-translational regulation of the root nitrate uptake transporter NRT2.1 in Arabidopsis thaliana
42. Identification of new transcription factors regulating root transporters in response to combined nitrogen/carbon treatments
43. Revisiting the functional properties of NPF6.3/NRT1.1/CHL1 in xenopus oocytes
44. Genome-wide Analysis In Response to N and C Identifies New Regulators for root AtNRT2 Transporters
45. NRT2.1 phosphorylation prevents root high affinity nitrate uptake activity inArabidopsis thaliana
46. Whole-tree nitrogen dynamics across seasons in response to defoliation and drought in 10 year-old beech trees
47. Revisiting the functional properties of NPF6.3/NRT1.1/CHL1 in xenopus oocytes
48. Diurnal regulation of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ uptake in soybean plants II. Relationship with accumulation of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ and asparagine in the roots
49. Diurnal regulation of $\mathrm{N}{\mathrm{O}}_{3}^{-}$ uptake in soybean plants I. Changes in $\mathrm{N}{\mathrm{O}}_{3}^{-}$ influx, efflux, and N utilization in the plant during the day/night cycle
50. Post-translational regulation of the root nitrate uptake transporter NRT2.1 in A rabidopsis thaliana
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