Your search keyword '"Gojon, Alain"' showing total 444 results

1. Natural genetic variation underlying the negative effect of elevated CO2 on ionome composition in Arabidopsis thaliana

Author

Cassan, Oceane, primary, Pimpare, Lea-Lou, additional, Mozzanino, Timothy, additional, Fizames, Cecile, additional, Devidal, Sebastien, additional, Roux, Fabrice, additional, Milcu, Alexandru, additional, Lebre, Sophie, additional, Gojon, Alain, additional, and Martin, Antoine, additional

Published

2024

2. Author response: Natural genetic variation underlying the negative effect of elevated CO2 on ionome composition in Arabidopsis thaliana

Author

Cassan, Oceane, primary, Pimpare, Lea-Lou, additional, Mozzanino, Timothy, additional, Fizames, Cecile, additional, Devidal, Sebastien, additional, Roux, Fabrice, additional, Milcu, Alexandru, additional, Lebre, Sophie, additional, Gojon, Alain, additional, and Martin, Antoine, additional

Published

2024

3. NRT2.1 C-terminus phosphorylation prevents root high affinity nitrate uptake activity in Arabidopsis thaliana

Author

Jacquot, Aurore, Chaput, Valentin, Mauries, Adeline, Li, Zhi, Tillard, Pascal, Fizames, Cécile, Bonillo, Pauline, Bellegarde, Fanny, Laugier, Edith, Santoni, Véronique, Hem, Sonia, Martin, Antoine, Gojon, Alain, Schulze, Waltraud, and Lejay, Laurence

Published

2020

4. Genetic and transcriptomic dissection of nitrate-independent function of Arabidopsis NRT1.1/NPF6.3/CHL1 under high ammonium condition

Author

Hachiya, Takushi, primary, Makita, Nobue, additional, Bach, Liên, additional, Gojon, Alain, additional, Nakagawa, Tsuyoshi, additional, and Sakakibara, Hitoshi, additional

Published

2024

5. Natural genetic variation underlying the negative effect of elevated CO2 on ionome composition in Arabidopsis thaliana.

Author

Cassan, Oceane, Pimpare, Lea-Lou, Mozzanino, Timothy, Fizames, Cecile, Devidal, Sebastien, Roux, Fabrice, Milcu, Alexandru, Lebre, Sophie, Gojon, Alain, and Martin, Antoine

Published

2024

6. Excessive ammonium assimilation by plastidic glutamine synthetase causes ammonium toxicity in Arabidopsis thaliana

Author

Hachiya, Takushi, Inaba, Jun, Wakazaki, Mayumi, Sato, Mayuko, Toyooka, Kiminori, Miyagi, Atsuko, Kawai-Yamada, Maki, Sugiura, Daisuke, Nakagawa, Tsuyoshi, Kiba, Takatoshi, Gojon, Alain, and Sakakibara, Hitoshi

Published

2021

7. PlantACT! - how to tackle the climate crisis

Author

King Abdullah University of Science and Technology, European Commission, Hirt, Heribert [0000-0003-3119-9633], Al-Babili, Salim [0000-0003-4823-2882], Almeida-Trapp, Marilia [0000-0002-9980-322X], Aranda, Manuel [0000-0001-6673-016X], Bartels, D. [0000-0003-0505-3083], Bennett, Malcom [0000-0003-0475-390X], Blilou, Ikram [0000-0001-8003-3782], Boer, Damian [0000-0003-1240-2253], Boulouis, Alix [0000-0002-2552-3938], Bowler, Chris [0000-0003-3835-6187], Brunel-Muguet, Sophie [0000-0001-6940-4618], Chardon, Fabien [0000-0001-7909-3884], Colcombet, Jean [0000-0002-0176-3857], Colot, Vincent [0000-0002-6382-1610], Daszkowska-Golec, Agata [0000-0001-9479-0813], Dinneny, Jose R. [0000-0002-3998-724X], Field, Ben [0000-0003-2142-4606], Gardener, Catherine H. [0000-0001-8528-3772], Gojon, Alain [0000-0001-5412-8606], Gomès, Eric [0000-0003-2582-1203], Gomez-Alvarez, Eva María [0000-0002-1284-7212], Gutiérrez Armenta, Crisanto [0000-0001-8905-8222], Havaux, Michel [0000-0002-6434-393X], Hayes, Scott [0000-0001-8943-6238], Heard, Edith [0000-0001-8052-7117], Alghamdi, Amal Khalaf [0000-0002-3491-5271], Laplaze, Laurent [0000-0002-6568-6504], Lauersen, Kyle J. [0000-0002-5538-7201], Leonhardt, Nathalie [0000-0002-5392-9732], Johnson, Xenie [0000-0003-3424-7047], Jones, Jonathan [0000-0002-4953-261X], Kollist, Hannes [0000-0002-6895-3583], Kopriva, Stanislav [0000-0002-7416-6551], Krapp, Anne [0000-0003-2034-5615], Masson, Mauricio Lopez-Portillo [0000-0003-3895-6254], McCabe, Matthew F. [0000-0002-1279-5272], Merendino, Livia [0000-0003-1593-5442], Molina, Antonio [0000-0003-3137-7938], Moreno Ramirez, Jose L. [0000-0002-0907-1361], Mueller-Roeber, Bernd [0000-0002-1410-464X], Nicolas, Michael [0000-0002-7311-5306], Nir, Ido [0000-0002-6223-6700], Pardo, José M. [0000-0003-4510-8624], Reichheld, Jean-Philippe [0000-0001-6884-0602], Rodriguez, Pedro [0000-0002-5886-9425], Rouached, Hatem [0000-0002-7751-0477], Saad, Maged M. [0000-0002-5655-8674], Schlögelhofer, Peter [0000-0002-0909-3587], De Smet, Ive [0000-0003-4607-8893], Stanschewski, Clara [0000-0002-3596-9108], Stra, Alice [0000-0002-0856-6039], Tester, Mark [0000-0002-5085-8801], Weber, A. [0000-0003-0970-4672], Weigel, Detlef [0000-0002-2114-7963], Wigge, Philip [0000-0003-4822-361X], Wrzaczek, Michael [0000-0002-5946-9060], Wulff, Brande B.H. [0000-0003-4044-4346], Hirt, Heribert, Al-Babili, Salim, Almeida-Trapp, Marilia, Martin, Antoine, Aranda, Manuel, Bartels, D., Bennett, Malcom, Blilou, Ikram, Boer, Damian, Boulouis, Alix, Bowler, Chris, Brunel-Muguet, Sophie, Chardon, Fabien, Colcombet, Jean, Colot, Vincent, Daszkowska-Golec, Agata, Dinneny, Jose R., Field, Ben, Froehlich, Katja, Gardener, Catherine H., Gojon, Alain, Gomès, Eric, Gomez-Alvarez, Eva María, Gutiérrez Armenta, Crisanto, Havaux, Michel, Hayes, Scott, Heard, Edith, Hodges, Michael, Alghamdi, Amal Khalaf, Laplaze, Laurent, Lauersen, Kyle J., Leonhardt, Nathalie, Johnson, Xenie, Jones, Jonathan, Kollist, Hannes, Kopriva, Stanislav, Krapp, Anne, Masson, Mauricio Lopez-Portillo, McCabe, Matthew F., Merendino, Livia, Molina, Antonio, Moreno Ramirez, Jose L., Mueller-Roeber, Bernd, Nicolas, Michael, Nir, Ido, Orduna, Izamar Olivas, Pardo, José M., Reichheld, Jean-Philippe, Rodriguez, Pedro, Rouached, Hatem, Saad, Maged M., Schlögelhofer, Peter, Singh, Kirti A., De Smet, Ive, Stanschewski, Clara, Stra, Alice, Tester, Mark, Walsh, Catherine, Weber, A., Weigel, Detlef, Wigge, Philip, Wrzaczek, Michael, Wulff, Brande B.H., Young, Iain M., King Abdullah University of Science and Technology, European Commission, Hirt, Heribert [0000-0003-3119-9633], Al-Babili, Salim [0000-0003-4823-2882], Almeida-Trapp, Marilia [0000-0002-9980-322X], Aranda, Manuel [0000-0001-6673-016X], Bartels, D. [0000-0003-0505-3083], Bennett, Malcom [0000-0003-0475-390X], Blilou, Ikram [0000-0001-8003-3782], Boer, Damian [0000-0003-1240-2253], Boulouis, Alix [0000-0002-2552-3938], Bowler, Chris [0000-0003-3835-6187], Brunel-Muguet, Sophie [0000-0001-6940-4618], Chardon, Fabien [0000-0001-7909-3884], Colcombet, Jean [0000-0002-0176-3857], Colot, Vincent [0000-0002-6382-1610], Daszkowska-Golec, Agata [0000-0001-9479-0813], Dinneny, Jose R. [0000-0002-3998-724X], Field, Ben [0000-0003-2142-4606], Gardener, Catherine H. [0000-0001-8528-3772], Gojon, Alain [0000-0001-5412-8606], Gomès, Eric [0000-0003-2582-1203], Gomez-Alvarez, Eva María [0000-0002-1284-7212], Gutiérrez Armenta, Crisanto [0000-0001-8905-8222], Havaux, Michel [0000-0002-6434-393X], Hayes, Scott [0000-0001-8943-6238], Heard, Edith [0000-0001-8052-7117], Alghamdi, Amal Khalaf [0000-0002-3491-5271], Laplaze, Laurent [0000-0002-6568-6504], Lauersen, Kyle J. [0000-0002-5538-7201], Leonhardt, Nathalie [0000-0002-5392-9732], Johnson, Xenie [0000-0003-3424-7047], Jones, Jonathan [0000-0002-4953-261X], Kollist, Hannes [0000-0002-6895-3583], Kopriva, Stanislav [0000-0002-7416-6551], Krapp, Anne [0000-0003-2034-5615], Masson, Mauricio Lopez-Portillo [0000-0003-3895-6254], McCabe, Matthew F. [0000-0002-1279-5272], Merendino, Livia [0000-0003-1593-5442], Molina, Antonio [0000-0003-3137-7938], Moreno Ramirez, Jose L. [0000-0002-0907-1361], Mueller-Roeber, Bernd [0000-0002-1410-464X], Nicolas, Michael [0000-0002-7311-5306], Nir, Ido [0000-0002-6223-6700], Pardo, José M. [0000-0003-4510-8624], Reichheld, Jean-Philippe [0000-0001-6884-0602], Rodriguez, Pedro [0000-0002-5886-9425], Rouached, Hatem [0000-0002-7751-0477], Saad, Maged M. [0000-0002-5655-8674], Schlögelhofer, Peter [0000-0002-0909-3587], De Smet, Ive [0000-0003-4607-8893], Stanschewski, Clara [0000-0002-3596-9108], Stra, Alice [0000-0002-0856-6039], Tester, Mark [0000-0002-5085-8801], Weber, A. [0000-0003-0970-4672], Weigel, Detlef [0000-0002-2114-7963], Wigge, Philip [0000-0003-4822-361X], Wrzaczek, Michael [0000-0002-5946-9060], Wulff, Brande B.H. [0000-0003-4044-4346], Hirt, Heribert, Al-Babili, Salim, Almeida-Trapp, Marilia, Martin, Antoine, Aranda, Manuel, Bartels, D., Bennett, Malcom, Blilou, Ikram, Boer, Damian, Boulouis, Alix, Bowler, Chris, Brunel-Muguet, Sophie, Chardon, Fabien, Colcombet, Jean, Colot, Vincent, Daszkowska-Golec, Agata, Dinneny, Jose R., Field, Ben, Froehlich, Katja, Gardener, Catherine H., Gojon, Alain, Gomès, Eric, Gomez-Alvarez, Eva María, Gutiérrez Armenta, Crisanto, Havaux, Michel, Hayes, Scott, Heard, Edith, Hodges, Michael, Alghamdi, Amal Khalaf, Laplaze, Laurent, Lauersen, Kyle J., Leonhardt, Nathalie, Johnson, Xenie, Jones, Jonathan, Kollist, Hannes, Kopriva, Stanislav, Krapp, Anne, Masson, Mauricio Lopez-Portillo, McCabe, Matthew F., Merendino, Livia, Molina, Antonio, Moreno Ramirez, Jose L., Mueller-Roeber, Bernd, Nicolas, Michael, Nir, Ido, Orduna, Izamar Olivas, Pardo, José M., Reichheld, Jean-Philippe, Rodriguez, Pedro, Rouached, Hatem, Saad, Maged M., Schlögelhofer, Peter, Singh, Kirti A., De Smet, Ive, Stanschewski, Clara, Stra, Alice, Tester, Mark, Walsh, Catherine, Weber, A., Weigel, Detlef, Wigge, Philip, Wrzaczek, Michael, Wulff, Brande B.H., and Young, Iain M.

Abstract

Greenhouse gas (GHG) emissions have created a global climate crisis which requires immediate interventions to mitigate the negative effects on all aspects of life on this planet. As current agriculture and land use contributes up to 25% of total GHG emissions, plant scientists take center stage in finding possible solutions for a transition to sustainable agriculture and land use. In this article, the PlantACT! (Plants for climate ACTion!) initiative of plant scientists lays out a road map of how and in which areas plant scientists can contribute to finding immediate, mid-term, and long-term solutions, and what changes are necessary to implement these solutions at the personal, institutional, and funding levels.

Published

2023

8. AtNIGT1/HRS1 integrates nitrate and phosphate signals at the Arabidopsis root tip.

Author

Medici, Anna, Marshall-Colon, Amy, Ronzier, Elsa, Szponarski, Wojciech, Wang, Rongchen, Gojon, Alain, Crawford, Nigel M, Ruffel, Sandrine, Coruzzi, Gloria M, and Krouk, Gabriel

Subjects

Arabidopsis, Meristem, Nitrates, Phosphates, Arabidopsis Proteins, Transcription Factors, DNA Primers, Microscopy, Fluorescence, Immunoblotting, Electrophoretic Mobility Shift Assay, Likelihood Functions, Gene Expression Profiling, Computational Biology, Phylogeny, Signal Transduction, Models, Genetic, Real-Time Polymerase Chain Reaction, Microscopy, Fluorescence, Models, Genetic

Abstract

Nitrogen and phosphorus are among the most widely used fertilizers worldwide. Nitrate (NO3(-)) and phosphate (PO4(3-)) are also signalling molecules whose respective transduction pathways are being intensively studied. However, plants are continuously challenged with combined nutritional deficiencies, yet very little is known about how these signalling pathways are integrated. Here we report the identification of a highly NO3(-)-inducible NRT1.1-controlled GARP transcription factor, HRS1, document its genome-wide transcriptional targets, and validate its cis-regulatory elements. We demonstrate that this transcription factor and a close homologue repress the primary root growth in response to P deficiency conditions, but only when NO3(-) is present. This system defines a molecular logic gate integrating P and N signals. We propose that NO3(-) and P signalling converge via double transcriptional and post-transcriptional control of the same protein, HRS1.

Published

2015

9. Genetic and transcriptomic dissection of nitrate-independent function of Arabidopsis NRT1.1/NPF6.3/CHL1 under high ammonium condition

Author

Hachiya, Takushi, primary, Makita, Nobue, additional, Bach, Lien, additional, Gojon, Alain, additional, Nakagawa, Tsuyoshi, additional, and Sakakibara, Hitoshi, additional

Published

2023

10. 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

Author

Muños, Stéphane, Cazettes, Céline, Fizames, Cécile, Gaymard, Frédéric, Tillard, Pascal, Lepetit, Marc, Lejay, Laurence, and Gojon, Alain

Published

2004

11. The Arabidopsis Root Transcriptome by Serial Analysis of Gene Expression. Gene Identification Using the Genome Sequence

Author

Fizames, Cécile, Muños, Stéphane, Cazettes, Céline, Nacry, Philippe, Boucherez, Jossia, Gaymard, Frédéric, Delorme, Valérie, Commes, Thérèse, Doumas, Patrick, Cooke, Richard, Sentenac, Hervé, and Gojon, Alain

Published

2004

12. Post-translational regulation of nitrogen transporters in plants and microorganisms

Author

Jacquot, Aurore, Li, Zhi, Gojon, Alain, Schulze, Waltraud, and Lejay, Laurence

Published

2017

13. Signals and players in the transcriptional regulation of root responses by local and systemic N signaling in Arabidopsis thaliana

Author

Bellegarde, Fanny, Gojon, Alain, and Martin, Antoine

Published

2017

14. Nitrogen nutrition in plants : rapid progress and new challenges

Author

Gojon, Alain

Published

2017

15. Natural genetic variation underlying the negative effect of elevated CO2on ionome composition inArabidopsis thaliana

Author

Cassan, Océane, primary, Pimparé, Léa-Lou, additional, Mozzanino, Timothy, additional, Fizames, Cécile, additional, Devidal, Sébastien, additional, Roux, Fabrice, additional, Milcu, Alexandru, additional, Lèbre, Sophie, additional, Gojon, Alain, additional, and Martin, Antoine, additional

Published

2023

16. PlantACT! – how to tackle the climate crisis

Author

Hirt, Heribert, primary, Al-Babili, Salim, additional, Almeida-Trapp, Marilia, additional, Martin, Antoine, additional, Aranda, Manuel, additional, Bartels, Dorothea, additional, Bennett, Malcolm, additional, Blilou, Ikram, additional, Boer, Damian, additional, Boulouis, Alix, additional, Bowler, Chris, additional, Brunel-Muguet, Sophie, additional, Chardon, Fabien, additional, Colcombet, Jean, additional, Colot, Vincent, additional, Daszkowska-Golec, Agata, additional, Dinneny, Jose R., additional, Field, Ben, additional, Froehlich, Katja, additional, Gardener, Catherine H., additional, Gojon, Alain, additional, Gomès, Eric, additional, Gomez-Alvarez, Eva María, additional, Gutierrez, Crisanto, additional, Havaux, Michel, additional, Hayes, Scott, additional, Heard, Edith, additional, Hodges, Michael, additional, Alghamdi, Amal Khalaf, additional, Laplaze, Laurent, additional, Lauersen, Kyle J., additional, Leonhardt, Nathalie, additional, Johnson, Xenie, additional, Jones, Jonathan, additional, Kollist, Hannes, additional, Kopriva, Stanislav, additional, Krapp, Anne, additional, Masson, Mauricio Lopez-Portillo, additional, McCabe, Matthew F., additional, Merendino, Livia, additional, Molina, Antonio, additional, Moreno Ramirez, Jose L., additional, Mueller-Roeber, Bernd, additional, Nicolas, Michael, additional, Nir, Ido, additional, Orduna, Izamar Olivas, additional, Pardo, Jose M., additional, Reichheld, Jean-Philippe, additional, Rodriguez, Pedro L., additional, Rouached, Hatem, additional, Saad, Maged M., additional, Schlögelhofer, Peter, additional, Singh, Kirti A., additional, De Smet, Ive, additional, Stanschewski, Clara, additional, Stra, Alice, additional, Tester, Mark, additional, Walsh, Catherine, additional, Weber, Andreas P.M., additional, Weigel, Detlef, additional, Wigge, Philip, additional, Wrzaczek, Michael, additional, Wulff, Brande B.H., additional, and Young, Iain M., additional

Published

2023

17. Regulation of Root Ion Transporters by Photosynthesis: Functional Importance and Relation with Hexokinase

Author

Lejay, Laurence, Gansel, Xavier, Cerezo, Miguel, Tillard, Pascal, Müller, Cathrin, Krapp, Anne, von Wirén, Nicolaus, Daniel-Vedele, Françoise, and Gojon, Alain

Published

2003

18. 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

Author

Tillard, Pascal, Gojon, Alain, and Lepetit, Marc

Published

2003

19. Major Alterations of the Regulation of Root NO₃⁻ Uptake Are Associated with the Mutation of Nrt2.1 and Nrt2.2 Genes in Arabidopsis

Author

Cerezo, Miguel, Tillard, Pascal, Muños, Stéphane, Daniel-Vedele, Françoise, and Gojon, Alain

Published

2001

20. Natural genetic variation underlying the negative effect of elevated CO2 on ionome composition in Arabidopsis thaliana

Author

Cassan, Oceane, Pimpare, Lea-Lou, Timothy, Mozzanino, Fizames, Cecile, Devidal, Sebastien, Roux, Fabrice, Milcu, Alexandru, Lebre, Sophie, Gojon, Alain, Martin, Antoine, Institut des Sciences des Plantes de Montpellier (IPSIM), Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), Écotron Européen de Montpellier, Centre National de la Recherche Scientifique (CNRS), Laboratoire des Interactions Plantes Microbes Environnement (LIPME), Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut Montpelliérain Alexander Grothendieck (IMAG), and Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)

Subjects

[SDV]Life Sciences [q-bio], [SDV.BV]Life Sciences [q-bio]/Vegetal Biology

Abstract

The elevation of atmospheric CO2 leads to a decline in the plant mineral content, which poses a major threat to food security in the coming decades. To date, very few genes have been identified as having a role in the negative effect of elevated CO2 on plant mineral composition. Yet, several studies have shown a certain degree of diversity in the ionome's response to elevated CO2, associated with genotypic variation. This suggests the existence of genetic factors controlling the effect of CO2 on ionome composition. However, no large-scale studies have been carried out to date to explore the genetic diversity of the ionome responses to elevated CO2. Here, we used six hundred Arabidopsis thaliana accessions, representing geographical distributions ranging from worldwide to regional and local environments, to analyze the natural genetic variation underlying the negative effect of elevated CO2 on the ionome composition in plants. We show that the growth under elevated CO2 leads to a global and important decrease of the ionome content whatever the geographic distribution of the population. We also observed a high range of genetic diversity in the response of the ionome composition to elevated CO2, and we identified sub-populations, showing effects on their ionome ranging from the most pronounced to resilience or even to a benefit in response to elevated CO2. Using genome-wide association mapping on the response of each mineral element to elevated CO2 or on integrative traits, we identified a large set of QTLs and genes associated with the ionome response to elevated CO2. Finally, we demonstrate that manipulating the function of one of these genes can mitigate the negative effect of elevated CO2 on the plant mineral composition. Therefore, this resource will contribute to understand the genetic mechanisms underlying the negative effect of elevated CO2 on the mineral composition of plants, and to the development of biofortified crops adapted to a high-CO2 world.

Published

2023

21. Three Functional Transporters for Constitutive, Diurnally Regulated, and Starvation-Induced Uptake of Ammonium into Arabidopsis Roots

Author

Gazzarrini, Sonia, Lejay, Laurence, Gojon, Alain, Ninnemann, Olaf, Frommer, Wolf B., and von Wirén, Nicolaus

Published

1999

22. 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

Author

Lejay, Laurence, Quilleré, Isabelle, Roux, Yvette, Tillard, Pascal, Cliquet, Jean-Bernard, Meyer, Christian, Morot-Gaudry, Jean-François, and Gojon, Alain

Published

1997

23. Characterisation of the signalling pathways involved in the repression of root nitrate uptake by nitrate in Arabidopsis thaliana

Author

Chaput, Valentin, primary, Li, Jianfu, additional, Séré, David, additional, Tillard, Pascal, additional, Fizames, Cécile, additional, Moyano, Tomas, additional, Zuo, Kaijing, additional, Martin, Antoine, additional, Gutiérrez, Rodrigo A, additional, Gojon, Alain, additional, and Lejay, Laurence, additional

Published

2023

24. A gene regulatory network in Arabidopsis roots reveals features and regulators of the plant response to elevated CO2

Author

Cassan, Océane, primary, Pimparé, Léa‐Lou, additional, Dubos, Christian, additional, Gojon, Alain, additional, Bach, Liên, additional, Lèbre, Sophie, additional, and Martin, Antoine, additional

Published

2023

25. The decline of plant mineral nutrition under rising CO2: physiological and molecular aspects of a bad deal

Author

Gojon, Alain, primary, Cassan, Océane, additional, Bach, Liên, additional, Lejay, Laurence, additional, and Martin, Antoine, additional

Published

2023

26. Approaches and determinants to sustainably improve crop production

Author

Gojon, Alain, Nussaume, Laurent, Luu, Doan T., Murchie, Erik H., Baekelandt, Alexandra, Saltenis, Vandasue Lily Rodrigues, Cohan, Jean-Pierre, Desnos, Thierry, Inze, Dirk, Ferguson, John N., Guiderdonni, Emmanuel, Krapp, Anne, Lankhorst, Rene Klein, Maurel, Christophe, Rouached, Hatem, Parry, Martin A. J., Pribil, Mathias, Scharff, Lars B., Nacry, Philippe, Gojon, Alain, Nussaume, Laurent, Luu, Doan T., Murchie, Erik H., Baekelandt, Alexandra, Saltenis, Vandasue Lily Rodrigues, Cohan, Jean-Pierre, Desnos, Thierry, Inze, Dirk, Ferguson, John N., Guiderdonni, Emmanuel, Krapp, Anne, Lankhorst, Rene Klein, Maurel, Christophe, Rouached, Hatem, Parry, Martin A. J., Pribil, Mathias, Scharff, Lars B., and Nacry, Philippe

Abstract

Plant scientists and farmers are facing major challenges in providing food and nutritional security for a growing population, while preserving natural resources and biodiversity. Moreover, this should be done while adapting agriculture to climate change and by reducing its carbon footprint. To address these challenges, there is an urgent need to breed crops that are more resilient to suboptimal environments. Huge progress has recently been made in understanding the physiological, genetic and molecular bases of plant nutrition and environmental responses, paving the way towards a more sustainable agriculture. In this review, we present an overview of these progresses and strategies that could be developed to increase plant nutrient use efficiency and tolerance to abiotic stresses. As illustrated by many examples, they already led to promising achievements and crop improvements. Here, we focus on nitrogen and phosphate uptake and use efficiency and on adaptation to drought, salinity and heat stress. These examples first show the necessity of deepening our physiological and molecular understanding of plant environmental responses. In particular, more attention should be paid to investigate stress combinations and stress recovery and acclimation that have been largely neglected to date. It will be necessary to extend these approaches from model plants to crops, to unravel the relevant molecular targets of biotechnological or genetic strategies directly in these species. Similarly, sustained efforts should be done for further exploring the genetic resources available in these species, as well as in wild species adapted to unfavourable environments. Finally, technological developments will be required to breed crops that are more resilient and efficient. This especially relates to the development of multiscale phenotyping under field conditions and a wide range of environments, and use of modelling and big data management to handle the huge amount of information provided

Published

2023

27. PlantACT! – how to tackle the climate crisis

Author

Hirt, Heribert, Al-Babili, Salim, Almeida-Trapp, Marilia, Martin, Antoine, Aranda, Manuel, Bartels, Dorothea, Bennett, Malcolm, Blilou, Ikram, Boer, Damian, Boulouis, Alix, Bowler, Chris, Brunel-Muguet, Sophie, Chardon, Fabien, Colcombet, Jean, Colot, Vincent, Daszkowska-Golec, Agata, Dinneny, Jose R., Field, Ben, Froehlich, Katja, Gardener, Catherine H., Gojon, Alain, Gomès, Eric, Gomez-Alvarez, Eva María, Gutierrez, Crisanto, Havaux, Michel, Hayes, Scott, Heard, Edith, Hodges, Michael, Alghamdi, Amal Khalaf, Laplaze, Laurent, Lauersen, Kyle J., Leonhardt, Nathalie, Johnson, Xenie, Jones, Jonathan, Kollist, Hannes, Kopriva, Stanislav, Krapp, Anne, Masson, Mauricio Lopez Portillo, McCabe, Matthew F., Merendino, Livia, Molina, Antonio, Moreno Ramirez, Jose L., Mueller-Roeber, Bernd, Nicolas, Michael, Nir, Ido, Orduna, Izamar Olivas, Pardo, Jose M., Reichheld, Jean Philippe, Rodriguez, Pedro L., Rouached, Hatem, Saad, Maged M., Schlögelhofer, Peter, Singh, Kirti A., De Smet, Ive, Stanschewski, Clara, Stra, Alice, Tester, Mark, Walsh, Catherine, Weber, Andreas P.M., Weigel, Detlef, Wigge, Philip, Wrzaczek, Michael, Wulff, Brande B.H., Young, Iain M., Hirt, Heribert, Al-Babili, Salim, Almeida-Trapp, Marilia, Martin, Antoine, Aranda, Manuel, Bartels, Dorothea, Bennett, Malcolm, Blilou, Ikram, Boer, Damian, Boulouis, Alix, Bowler, Chris, Brunel-Muguet, Sophie, Chardon, Fabien, Colcombet, Jean, Colot, Vincent, Daszkowska-Golec, Agata, Dinneny, Jose R., Field, Ben, Froehlich, Katja, Gardener, Catherine H., Gojon, Alain, Gomès, Eric, Gomez-Alvarez, Eva María, Gutierrez, Crisanto, Havaux, Michel, Hayes, Scott, Heard, Edith, Hodges, Michael, Alghamdi, Amal Khalaf, Laplaze, Laurent, Lauersen, Kyle J., Leonhardt, Nathalie, Johnson, Xenie, Jones, Jonathan, Kollist, Hannes, Kopriva, Stanislav, Krapp, Anne, Masson, Mauricio Lopez Portillo, McCabe, Matthew F., Merendino, Livia, Molina, Antonio, Moreno Ramirez, Jose L., Mueller-Roeber, Bernd, Nicolas, Michael, Nir, Ido, Orduna, Izamar Olivas, Pardo, Jose M., Reichheld, Jean Philippe, Rodriguez, Pedro L., Rouached, Hatem, Saad, Maged M., Schlögelhofer, Peter, Singh, Kirti A., De Smet, Ive, Stanschewski, Clara, Stra, Alice, Tester, Mark, Walsh, Catherine, Weber, Andreas P.M., Weigel, Detlef, Wigge, Philip, Wrzaczek, Michael, Wulff, Brande B.H., and Young, Iain M.

Abstract

Greenhouse gas (GHG) emissions have created a global climate crisis which requires immediate interventions to mitigate the negative effects on all aspects of life on this planet. As current agriculture and land use contributes up to 25% of total GHG emissions, plant scientists take center stage in finding possible solutions for a transition to sustainable agriculture and land use. In this article, the PlantACT! (Plants for climate ACTion!) initiative of plant scientists lays out a road map of how and in which areas plant scientists can contribute to finding immediate, mid-term, and long-term solutions, and what changes are necessary to implement these solutions at the personal, institutional, and funding levels.

Published

2023

28. Nitrate Controls Root Development through Posttranscriptional Regulation of the NRT1.1/NPF6.3 Transporter/Sensor

Author

Bouguyon, Eléonore, Perrine-Walker, Francine, Pervent, Marjorie, Rochette, Juliette, Cuesta, Candela, Benkova, Eva, Martinière, Alexandre, Bach, Lien, Krouk, Gabriel, Gojon, Alain, and Nacry, Philippe

Published

2016

29. Root Nitrate Uptake

Author

Lejay, Laurence, primary and Gojon, Alain, additional

Published

2018

30. A gene regulatory network in Arabidopsis roots reveals features and regulators of the plant response to elevated CO2.

Author

Cassan, Océane, Pimparé, Léa‐Lou, Dubos, Christian, Gojon, Alain, Bach, Liên, Lèbre, Sophie, and Martin, Antoine

Subjects

PLANT regulators, ATMOSPHERIC carbon dioxide, GENE regulatory networks, GENE expression, PLANT biomass, AGRICULTURAL climatology

Abstract

Summary: The elevation of CO2 in the atmosphere increases plant biomass but decreases their mineral content. The genetic and molecular bases of these effects remain mostly unknown, in particular in the root system, which is responsible for plant nutrient uptake.To gain knowledge about the effect of elevated CO2 on plant growth and physiology, and to identify its regulatory in the roots, we analyzed genome expression in Arabidopsis roots through a combinatorial design with contrasted levels of CO2, nitrate, and iron.We demonstrated that elevated CO2 has a modest effect on root genome expression under nutrient sufficiency, but by contrast leads to massive expression changes under nitrate or iron deficiencies. We demonstrated that elevated CO2 negatively targets nitrate and iron starvation modules at the transcriptional level, associated with a reduction in high‐affinity nitrate uptake. Finally, we inferred a gene regulatory network governing the root response to elevated CO2. This network allowed us to identify candidate transcription factors including MYB15, WOX11, and EDF3 which we experimentally validated for their role in the stimulation of growth by elevated CO2.Our approach identified key features and regulators of the plant response to elevated CO2, with the objective of developing crops resilient to climate change. See also the Commentary on this article by Kaiser, 239: 818–820. [ABSTRACT FROM AUTHOR]

Published

2023

31. Signaling pathways involved in the repression of root nitrate uptake by nitrate inArabidopsis thaliana

Author

Chaput, Valentin, primary, Li, Jianfu, additional, Séré, David, additional, Tillard, Pascal, additional, Fizames, Cécile, additional, Moyano, Tomas, additional, Zuo, Kaijing, additional, Martin, Antoine, additional, Gutiérrez, Rodrigo A., additional, Gojon, Alain, additional, and Lejay, Laurence, additional

Published

2022

32. Signal interactions in the regulation of root nitrate uptake

Author

Ruffel, Sandrine, Gojon, Alain, and Lejay, Laurence

Published

2014

33. Root system growth and development responses to elevated CO2: underlying signalling mechanisms and role in improving plant CO2 capture and soil C storage.

Author

Bach, Liên and Gojon, Alain

Subjects

*ROOT growth, *GREENHOUSE gases, *SYSTEMS development, *ROOT development, *GERMPLASM, *CAP rock

Abstract

Carbon storage in soils is one of the most promising strategies for mitigating greenhouse gas emissions and the associated climate change. In this context, how plant root systems respond to the elevation of the atmospheric CO2 concentration is of crucial importance because these organs are the main source of C input into the soils. It is expected that root growth will be stimulated by elevated CO2 as a consequence of enhanced photosynthesis, and that this will favour belowground C sequestration. In addition, larger root systems with optimized architecture are also expected to improve water and nutrient acquisition by plants, and to indirectly stimulate photosynthetic CO2 capture. This review critically examines the evidence supporting these expectations from a molecular physiology perspective. We illustrate the strong but highly variable effects of elevated CO2 on root system size and architecture, and provide an update on the signalling mechanisms that may trigger these effects. This highlights the lack of knowledge on the physiological and genetic bases of the root growth and development response to elevated CO2, but shows that candidate genes and genetic resources are largely available to fill this gap. [ABSTRACT FROM AUTHOR]

Published

2023

34. Polycomb Repressive Complex 2 attenuates the very high expression of the Arabidopsis gene NRT2.1

Author

Bellegarde, Fanny, Herbert, Léo, Séré, David, Caillieux, Erwann, Boucherez, Jossia, Fizames, Cécile, Roudier, François, Gojon, Alain, and Martin, Antoine

Published

2018

35. Molecular framework integrating nitrate sensing in root and auxin-guided shoot adaptive responses

Author

Abualia, Rashed, primary, Ötvös, Krisztina, additional, Novák, Ondřej, additional, Bouguyon, Eleonore, additional, Domanegg, Kevin, additional, Krapp, Anne, additional, Nacry, Philip, additional, Gojon, Alain, additional, Lacombe, Benoit, additional, and Benková, Eva, additional

Published

2022

36. Loss of Polycomb proteins CLF and LHP1 leads to excessive RNA degradation in Arabidopsis

Author

Séré, David, primary, Cassan, Océane, additional, Bellegarde, Fanny, additional, Fizames, Cécile, additional, Boucherez, Jossia, additional, Schivre, Geoffrey, additional, Azevedo, Jacinthe, additional, Lagrange, Thierry, additional, Gojon, Alain, additional, and Martin, Antoine, additional

Published

2022

37. Nitrogen acquisition by roots: physiological and developmental mechanisms ensuring plant adaptation to a fluctuating resource

Author

Nacry, Philippe, Bouguyon, Eléonore, and Gojon, Alain

Published

2013

38. Mechanisms and Regulation of Ammonium Uptake in Higher Plants

Author

von Wirén, Nicolaus, Gojon, Alain, Chaillou, Sylvain, Raper, D., Jr, Lea, Peter J., editor, and Morot-Gaudry, Jean-François, editor

Published

2001

39. Regulation of High-Affinity Nitrate Uptake in Roots of Arabidopsis Depends Predominantly on Posttranscriptional Control of the NRT2.1/NAR2.1 Transport System

Author

Laugier, Edith, Bouguyon, Eléonore, Mauriès, Adeline, Tillard, Pascal, Gojon, Alain, and Lejay, Laurence

Published

2012

40. Nitrogen acquisition in arbuscular mycorrhizal symbioses: A step into the real world

Author

Gojon, Alain, primary

Published

2022

41. HIGH NITROGEN INSENSITIVE 9 (HNI9)-mediated systemic repression of root NO 3 − uptake is associated with changes in histone methylation

Author

Widiez, Thomas, El Kafafi, El Sayed, Girin, Thomas, Berr, Alexandre, Ruffel, Sandrine, Krouk, Gabriel, Vayssières, Alice, Shen, Wen-Hui, Coruzzi, Gloria M., Gojon, Alain, and Lepetit, Marc

Published

2011

42. Nitrate transceptor(s) in plants

Author

Gojon, Alain, Krouk, Gabriel, Perrine-Walker, Francine, and Laugier, Edith

Published

2011

43. Notes Académiques de l'Académie d'agriculture de France Academic Notes from the French Academy of Agriculture (N3AF) Synthèse

Author

Lemaire, Gilles, Gojon, Alain, Gastal, Francois, Briat, Jean-François, and Baracco, Chantal

Subjects

[SDV] Life Sciences [q-bio], Nitrogen fertilization, crop N diagnosis, nitrogen nutrition index, [SDV.BV] Life Sciences [q-bio]/Vegetal Biology, critical N concentration, N dilution curves, N balance sheet method, response curves

Abstract

Nitrogen fertilization of crops has long been based on a statistical analysis of the response of their yield to increasing doses of fertilizers. This prognosis has led to an insurance practice applying excessive doses of nitrogen so as not to penalize yields. A method for predicting the nitrogen balance of a crop has been developed to correct this trend but remains too highly imprecise. Diagnosis of the nitrogen nutrition status of a crop has recently emerged, reducing the uncertainty linked to the variability of local conditions. This diagnosis, integrated into decision support algorithms, makes it possible to apply fertilizers only “where” and “when” the nutritional status of the crops requires it. This precision must make it possible to achieve the targeted yields while minimizing the environmental impacts, La fertilisation azotée des cultures a longtemps été fondée sur une analyse statistique de la réponse de leur rendement à des doses croissantes de fertilisants. Ce pronostic a conduit à une pratique d’assurance où l’on applique des doses d’azote excessives, afin de ne pas pénaliser les rendements. Une méthode prévisionnelle du bilan d’azote d’une culture a été mise au point pour corriger cette tendance, mais elle reste très imparfaite. Le diagnostic de l’état de nutrition azotée d’une culture a récemment émergé, résorbant l’incertitude liée à la variabilité des conditions locales. Ce diagnostic, intégré dans des algorithmes d’aide à la décision, permet d’effectuer les apports de fertilisants seulement « là » et « quand » l’état nutritionnel des cultures le nécessite. Cette précision doit permettre d’atteindre les rendements fixés en minimisant les impacts environnementaux..

Published

2022

44. Identification of Arabidopsis Mutants Impaired in the Systemic Regulation of Root Nitrate Uptake by the Nitrogen Status of the Plant

Author

Girin, Thomas, El-Kafafi, El-Sayed, Widiez, Thomas, Erban, Alexander, Hubberten, Hans-Michael, Kopka, Joachim, Hoefgen, Rainer, Gojon, Alain, and Lepetit, Marc

Published

2010

45. Adaptation of Medicago truncatula to Nitrogen Limitation Is Modulated via Local and Systemic Nodule Developmental Responses

Author

Jeudy, Christian, Ruffel, Sandrine, Freixes, Sandra, Tillard, Pascal, Santoni, Anne Lise, Morel, Sylvain, Journet, Etienne-Pascal, Duc, Gérard, Gojon, Alain, Lepetit, Marc, and Salon, Christophe

Published

2010

46. Ammonium transport and CitAMT1 expression are regulated by N in Citrus plants

Author

Camañes, Gemma, Cerezo, Miguel, Primo-Millo, Eduardo, Gojon, Alain, and García-Agustín, Pilar

Published

2009

47. Mutation of the Arabidopsis NRT1.5 Nitrate Transporter Causes Defective Root-to-Shoot Nitrate Transport

Author

Lin, Shan-Hua, Kuo, Hui-Fen, Canivenc, Geneviève, Lin, Choun-Sea, Lepetit, Marc, Hsu, Po-Kai, Tillard, Pascal, Lin, Huey-Ling, Wang, Ya-Yun, Tsai, Chyn-Bey, Gojon, Alain, and Tsay, Yi-Fang

Published

2008

48. Oxidative Pentose Phosphate Pathway-Dependent Sugar Sensing as a Mechanism for Regulation of Root Ion Transporters by Photosynthesis

Author

Lejay, Laurence, Wirth, Judith, Pervent, Marjorie, Cross, Joanna Marie-France, Tillard, Pascal, and Gojon, Alain

Published

2008

49. Systemic Signaling of the Plant Nitrogen Status Triggers Specific Transcriptome Responses Depending on the Nitrogen Source in Medicago truncatula

Author

Ruffel, Sandrine, Freixes, Sandra, Balzergue, Sandrine, Tillard, Pascal, Jeudy, Christian, Martin-Magniette, Marie Laure, van der Merwe, Margaretha J., Kakar, Klementina, Gouzy, Jerôme, Fernie, Alisdair R., Udvardi, Michael, Salon, Christophe, Gojon, Alain, and Lepetit, Marc

Published

2008

50. Ammonium transport and CitAMT1 expression are regulated by light and sucrose in Citrus plants

Author

Camañes, Gemma, Cerezo, Miguel, Primo-Millo, Eduardo, Gojon, Alain, and García-Agustín, Pilar

Published

2007