Arnould Savoure 教授

　　 　　

Curriculum vitae Arnould SAVOURE

1

Born               December 28^th, 1963, Versailles, FRANCE

Nationality     French

Address             APCE, iEES UMR 7618 CNRS, INRA, IRD, UPMC, Case 237, 4 place Jussieu, 75252 Paris cedex 05, FRANCE

                        Tel.: +33-(1)-44 27 26 72

                        Email: arnould.savoure@upmc.fr

EDUCATION

1987             DEA in plant molecular biology, University of Paris VI, FRANCE

1994             Ph.D., Plant Molecular Biology, University of Paris XI, FRANCE

1998               Habilitation à Diriger des Recherches (HDR), Picardie Jules Verne University, FRANCE

POSITIONS AND SCIENTIFIC EXPERIENCE

1994-96         Postdoctoral Fellow, EMBO and Human Capital and Mobility Fellow. Laboratorium voor Genetica, University of Gent (Belgium).

1996-99 Associate Professor. University of Picardie Jules Verne, Amiens, FRANCE

1999-now     Professor in Plant Physiology, team leader, UPMC, FRANCE

2014-2015    Director of APCE, URF5, UPMC, FRANCE

2016-           Team leader APCE, iEES

RESEARCH SUPERVISION AND MANAGEMENT

Team leader APCE, iEES (2016- )

Director of APCE URF5 (2014-2015)

Team leader (since 1999)

Associate editor of BMC Plant Biology

Supervisor for 4 PostDocs, 7 PhD and numerous Master students.

Participation in 2 EU COSTS programs, 1 EU research project (INCO).

Coordinator of 5 international bilateral projects (2 UTIQUE Tunisia, PROCOPE Germany, ORCHID Taiwan, BLATON Hungary)

Awards         

EMBO fellowship (1994-1995)

Major Research Interests

Proline metabolism

Plant stress adaptation to abiotic stress

Plant respiration

Rhizobium-legume interaction

44 publications in international peer-reviewed journals, 16 book chapters. h-index=29, 4263 citations

List of peer-reviewed publications (2010-now)

For complete list of publications see:

http://scholar.google.fr/citations?user=VajL5WwAAAAJ&hl=fr


- Szabados L. and Savouré A. (2010). Proline : a multifuntional amino acid. Trends Plant Sci. 5(2), 89-97. [Highly cited paper]

- Toka I., Planchais S., Cabassa C., Justin A.M., De Vos D., Richard L., Savouré A., Carol P. (2010). Mutations in the hyperosmotic stress responsive mitochondrial BASIC AMINO ACID CARRIER 2 enhance proline accumulation in Arabidopsis. Plant Physiol. 152, 1851–1862.

- Yousfi N, Slama I, Ghnaya T, Savouré A, Abdelly C. (2010). Effects of water deficit stress on growth, water relations and osmolyte accumulation in Medicago truncatula and M. laciniata populations. CR Biol. 333(3), 205-13.

- Lugan R., Niogret M.F., Leport L., Guégan J.P., Larher F., Savouré A., Kopka J. and Bouchereau A. (2010). Metabolome and water homeostasis analysis of Thellungiella salsuginea suggests that dehydration tolerance is a key response to osmotic stress in this halophyte. Plant J. 64, 215–229.

- Servet C., Ghelis T., Richard L., Zilberstein A. and Savouré A. (2012). Proline dehydrogenase: a key enzyme in controlling cellular homeostasis. Front. Biosci. 17, 607-620.

- Ghars M.A., Richard L., Lefebvre-De Vos D., Leprince A.S., Parre E., Bordenave M., Abdelly A. and Savouré A. (2012). Phospholipases C and D modulate proline accumulation in Thellungiella halophila/salsuginea differently according to the severity of salt or hyperosmotic stress. Plant Cell Physiol. 53, 183-192.

- Debez A., Ben Rejeb K., Ghars M.A., Gandour M., Megdiche W., Ben Hameda K., Ben Amora N., Brown S., Savouré A., Abdelly C. (2013) Ecophysiological and genomic analysis of salt tolerance of Cakile maritima. Env. Exp. Bot. 92, 64-72.

- Ben Hamed K., Zribi Talbi O., Hessini K., Slama I., Ghnaya T., Ellouzi H., Munné Bosch S., Savouré A., Abdelly C. (2013). Physiological response of halophytes to multiple stresses. (2013). Funct. Plant Biology. 40, 883-896.

- Schertl P., Cabassa C., Saadallah K., Bordenave M., Savouré A.^*, Braun HP. ^* (2014). Biochemical characterization of proline dehydrogenase in Arabidopsis mitochondria. FEBS J. 281, 2794–2804. doi: 10.1111/febs.12821.

- Ben Rejeb K., Abdelly C., Savouré A. (2014). How reactive oxygen species and proline face stress together. PPB. 80, 278-284.

- Planchais S., Cabassa C., Toka I., Justin AM, Renou JP, Savouré A., Carol P. (2014). BASIC AMINO ACID CARRIER 2 gene expression modulates arginine and urea content and stress recovery in Arabidopsis leaves. Front. Plant Science. 5: 330. doi: 10.3389/fpls.2014.00330.

- Slama S., Ben Rejeb K., Rouached A., Jdey A., Rabhi M., Talbi O., Debez A., Savouré A., Abdelly C. (2014). Presence of proline in salinized nutrient solution re-enforces the role of this amino acid in osmoregulation and protects lipid membrane peroxidation in Arabidopsis thaliana. AJCS. 8, 1367-1372.

- Ben Rejeb K., Benzartia M., Debez A., Bailly C., Savouré A., Abdelly C. (2015). NADPH oxidase-dependent H₂O₂ production is required for salt-induced antioxidant defense in Arabidopsis thaliana. J. Plant Physiol. 174, 5-15.

- Slama S., Bouchereau A., Flowers T., Abdelly C., Savouré A. (2015). Diversity, distribution and roles of osmoprotective compounds accumulated in halophytes under abiotic stress. AoB. 115, 433-47. [Highly cited paper]

- Leprince A.S., Magalhaes N., De Vos D., Bordenave B., Crilat E., Clément G., Meyer C., Munnik T., Savouré A. (2015). Involvement of Phosphatidylinositol 3-kinase in the regulation of proline catabolism in Arabidopsis thaliana. Frontiers in Plant Science 5, 772, 1-13.

- Ben Rejeb K., Lefebvre-De Vos D., Le Disquet I., Leprince A.-S., Bordenave M., Maldiney R., Jdey A., Abdelly C. and Savouré A. (2015). Hydrogen peroxide produced by NADPH oxidases increases proline accumulation during salt or mannitol stress in Arabidopsis thaliana. New Phytologist. 208, 1138–1148. doi: 10.1111/nph.13550 (IF : 7.6)

- Jday A., Ben Rejeb K., Slama I., Saadallah K., Bordenave M., Planchais S., Savouré A., Abdelly C. (2016). Effects of exogenous nitric oxide on growth, proline accumulation and antioxidant capacity in Cakile maritima seedlings subjected to water deficit stress. Functional Plant Biology 43, 939-948. http://dx.doi.org/10.1071/FP15363 (IF: 2.5)

- Cabassa-Hourton C., Schertl P., Bordenave-Jacquemin M., Saadallah K., Guivarc'h A., Lebreton S., Planchais S., Klodmann J., Eubel H., Crilat E., Lefebvre-De Vos D., Ghelis T., Richard L., Abdelly C., Carol P., Braun HP., Savouré A. (2016). Proteomic and functional analysis of proline dehydrogenase 1 link proline catabolism to mitochondrial electron transport in Arabidopsis thaliana. Biochem J. 473, 2623-34. doi: 10.1042/BCJ20160314. (IF: 3.6)

Book chapter

- Parre E., de Virville J., Cochet F., Leprince A.-S., Richard L., Lefebvre-De Vos D., Ghars M.A., Bordenave M., Zachowski A., and Savouré A. (2010). A new method for accurately measuring ∆1-pyrroline-5-carboxylate synthetase activity. Methods Mol Biol. 639, 333-340.

- A. Savouré (2010). La signalisation chez les végétaux revue et corrigée. Biologie Aujourd’hui. 204(1), 9-10.

- Leprince A.-S. and Savouré A. (2010). La signalisation lipidique chez les plantes et son rôle dans la transduction des signaux en réponse aux contraintes hydriques. Biologie Aujourd’hui. 204(1), 11-19.

- Ben Rejeb K., Abdelly C. et Savouré A. (2012). La proline, un acide aminé multifonctionnel impliqué dans l’adaptation des plantes aux contraintes environnementales. Biologie Aujourd’hui. 206, 291-299.

- Savouré A. (2014). Signaux d’un développement harmonieux. SNHF. Colloques scientifiques et journées de conferences et d’échanges. 14-17.

- Savouré A. (2015). Les plantes en interaction directe avec leur environnement. SNHF. Colloques scientifiques et journées de conferences et d’échanges. 10-13.

Invited conferences

Regulation of proline metabolism in the halophyte Thellungiella salsuginea in comparison to the glycophyte Arabidopsis thaliana. 2nd International Conference on “Physiological, Biochemical and Molecular Arguments for Salt tolerance”. Doha, Quatar (12-14 October, 2015)

Les plantes en interaction directe avec leur environnement (12 février 2015). Congrès de la SNHF, Paris.

Proline metabolism is tightly regulated in plants (10 Dec. 2014) National University of Taiwan, Taipei, Taiwan.

Les signaux d'un développement harmonieux (23 mai 2014) Congrés de la SNHF, Paris.

Proline, an enigmatic amino acid accumulated in plants upon water stress (25 nov. 2013, Taipei, Taiwan).

Proline, an enigmatic amino acid accumulated in plants in response to environmental constraints (4/07/2013) Hannover, Germany.

Putting halophytes to work – genetics, biochemistry and physiology (29-30/08/2012). Hannover, Germany.

La proline, un acide aminé multifonctionnel accumulé chez les plantes en réponse à des contraintes environnementales. (21/03/2012). La Société de Biologie, Paris, France.

Model plants to investigate salt tolerance (07/2011). Training School « Halophyte Biochemistry and Physiology » Hannover, Germany.

Regulation of proline metabolism in plants (November 7-9, 2010) 3rd International Symposium on Proline Metabolism. University of Nebraska, Lincoln, USA.