Équipes de recherche

Senescence, autophagie, recyclage nutritionnel et efficacité d'utilisation de l'azote

SATURNE 7 membres

Publications IJPB (2006-présent)
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Avila-Ospina L, Moison M, Yoshimoto K, Masclaux-Daubresse C (2014). Autophagy, plant senescence, and nutrient recycling. J Exp Bot, 65:3799-3811. PubMed | DOI
Chardon F, Jasinski S, Durandet M, Lécureuil A, Soulay F, Bedu M, Guerche P, Masclaux-Daubresse C (2014). QTL meta-analysis in Arabidopsis reveals an interaction between leaf senescence and resource allocation to seeds. J Exp Bot, 65:3949-3962. PubMed | DOI
Fagard M, Launay A, Clément G, Courtial J, Dellagi A, Farjad M, Krapp A, Soulie MC, Masclaux-Daubresse C (2014). Nitrogen metabolism meets phytopathology. J Exp Bot, 65:5643-5656. PubMed | DOI
Klemens P, Patzke K, Krapp A, Chardon F, Neuhaus E (2014). SWEET16 and SWEET17, two novel vacuolar sugar carriers with impact on cellular sugar homeostasis and plant traits. Biochemistry and cell biology, 92:589-589. PubMed | DOI
Masclaux-Daubresse C, Clément G, Anne P, Routaboul JM, Guiboileau A, Soulay F, Shirasu K, Yoshimoto K (2014). Stitching together the Multiple Dimensions of Autophagy Using Metabolomics and Transcriptomics Reveals Impacts on Metabolism, Development, and Plant Responses to the Environment in Arabidopsis. Plant Cell, 26:1857-1877. PubMed | DOI
Merkulova EA, Guiboileau A, Naya L, Masclaux-Daubresse C, Yoshimoto K (2014). Assessment and optimization of autophagy monitoring methods in Arabidopsis roots indicate direct fusion of autophagosomes with vacuoles. Plant Cell Physiol, 55:715-726. PubMed | DOI
Orsel M, Moison M, Clouet V, Thomas J, Leprince F, Canoy AS, Just J, Chalhoub B, Masclaux-Daubresse C (2014). Sixteen cytosolic glutamine synthetase genes identified in the Brassica napus L. genome are differentially regulated depending on nitrogen regimes and leaf senescence. J Exp Bot, 65:3927-3947. PubMed | DOI
Pottier M, Masclaux-Daubresse C, Yoshimoto K, Thomine S (2014). Autophagy as a possible mechanism for micronutrient remobilization from leaves to seeds. Front Plant Sci, 5:11. PubMed | DOI
Shibata M, Oikawa K, Yoshimoto K, Goto-Yamada S, Mano S, Yamada K, Kondo M, Hayashi M, Sakamoto W, Ohsumi Y, Nishimura M (2014). Plant autophagy is responsible for peroxisomal transition and plays an important role in the maintenance of peroxisomal quality. Autophagy, 10:936-937. PubMed | DOI
Yoshimoto K, Shibata M, Kondo M, Oikawa K, Sato M, Toyooka K, Shirasu K, Nishimura M, Ohsumi Y (2014). Organ-specific quality control of plant peroxisomes is mediated by autophagy. J Cell Sci, 127:1161-1168. PubMed | DOI
Chardon F, Bedu M, Calenge F, Klemens PA, Spinner L, Clément G, Chietera G, Leran S, Ferrand M, Lacombe B, Loudet O, Dinant S, Bellini C, Neuhaus HE, Daniel-Vedele F, Krapp A (2013). Leaf fructose content is controlled by the vacuolar transporter SWEET17 in Arabidopsis. Curr Biol, 23:697-702. PubMed | DOI
De Pessemier J, Chardon F, Juraniec M, Delaplace P, Hermans C (2013). Natural variation of the root morphological response to nitrate supply in Arabidopsis thaliana. Mech Dev, 130:45-53. PubMed | DOI
Debouba M, Dguimi HM, Ghorbel M, Gouia H, Suzuki A (2013). Expression pattern of genes encoding nitrate and ammonium assimilating enzymes in Arabidopsis thaliana exposed to short term NaCl stress. J Plant Physiol, 170:155-160. PubMed | DOI
Gaufichon L, Masclaux-Daubresse C, Tcherkez G, Reisdorf-Cren M, Sakakibara Y, Hase T, Clément G, Avice JC, Grandjean O, Marmagne A, Boutet-Mercey S, Azzopardi M, Soulay F, Suzuki A (2013). Arabidopsis thaliana ASN2 encoding asparagine synthetase is involved in the control of nitrogen assimilation and export during vegetative growth. Plant Cell Environ, 36:328-342. PubMed | DOI
Guiboileau A, Avila-Ospina L, Yoshimoto K, Soulay F, Azzopardi M, Marmagne A, Lothier J, Masclaux-Daubresse C (2013). Physiological and metabolic consequences of autophagy deficiency for the management of nitrogen and protein resources in Arabidopsis leaves depending on nitrate availability. New Phytol, 199:683-694. PubMed | DOI
Kellermeier F, Chardon F, Amtmann A (2013). Natural variation of Arabidopsis root architecture reveals complementing adaptive strategies to potassium starvation. Plant Physiol, 161:1421-1432. PubMed | DOI
Klemens PA, Patzke K, Deitmer J, Spinner L, Le Hir R, Bellini C, Bedu M, Chardon F, Krapp A, Neuhaus HE (2013). Overexpression of the vacuolar sugar carrier AtSWEET16 modifies germination, growth, and stress tolerance in Arabidopsis. Plant Physiol, 163:1338-1352. PubMed | DOI
Shibata M, Oikawa K, Yoshimoto K, Kondo M, Mano S, Yamada K, Hayashi M, Sakamoto W, Ohsumi Y, Nishimura M (2013). Highly oxidized peroxisomes are selectively degraded via autophagy in Arabidopsis. Plant Cell, 25:4967-4983. PubMed | DOI
Arkoun M, Jannin L, Laine P, Etienne P, Masclaux-Daubresse C, Citerne S, Garnica M, Garcia-Mina JM, Yvin JC, Ourry A (2012). A physiological and molecular study of the effects of nickel deficiency and phenylphosphorodiamidate (PPD) application on urea metabolism in oilseed rape (Brassica napus L.). Plant and Soil, 362:79-92. PubMed | DOI
Chardon F, Noel V, Masclaux-Daubresse C (2012). Exploring NUE in crops and in Arabidopsis ideotypes to improve yield and seed quality. J Exp Bot, 63:3401-3412. PubMed | DOI
Guiboileau A, Masclaux-Daubresse C (2012). [Autophagic processes in plants: mechanisms, regulation and function]. C R Biol, 335:375-388. PubMed | DOI
Guiboileau A, Yoshimoto K, Soulay F, Bataille MP, Avice JC, Masclaux-Daubresse C (2012). Autophagy machinery controls nitrogen remobilization at the whole-plant level under both limiting and ample nitrate conditions in Arabidopsis. New Phytol, 194:732-740. PubMed | DOI
Ikram S, Bedu M, Daniel-Vedele F, Chaillou S, Chardon F (2012). Natural variation of Arabidopsis response to nitrogen availability. J Exp Bot, 63:91-105. PubMed | DOI
Yoshimoto K (2012). Beginning to understand autophagy, an intracellular self-degradation system in plants. Plant Cell Physiol, 53:1355-1365. PubMed | DOI
Badri M, Chardon F, Huguet T, Aouani ME (2011). Quantitative trait loci associated with drought tolerance in the model legume Medicago truncatula. Euphytica, 181:415-428. PubMed | DOI
Lothier J, Gaufichon L, Sormani R, Lemaitre T, Azzopardi M, Morin H, Chardon F, Reisdorf-Cren M, Avice JC, Masclaux-Daubresse C (2011). The cytosolic glutamine synthetase GLN1;2 plays a role in the control of plant growth and ammonium homeostasis in Arabidopsis rosettes when nitrate supply is not limiting. J Exp Bot, 62:1375-1390. PubMed | DOI
Maaroufi-Dguimi H, Debouba M, Gaufichon L, Clément G, Gouia H, Hajjaji A, Suzuki A (2011). An Arabidopsis mutant disrupted in ASN2 encoding asparagine synthetase 2 exhibits low salt stress tolerance. Plant Physiol Biochem, 49:623-628. PubMed | DOI
Masclaux-Daubresse C, Chardon F (2011). Exploring nitrogen remobilization for seed filling using natural variation in Arabidopsis thaliana. J Exp Bot, 62:2131-2142. PubMed | DOI
Sormani R, Masclaux-Daubresse C, Daniel-Vedele F, Chardon F (2011). Transcriptional regulation of ribosome components are determined by stress according to cellular compartments in Arabidopsis thaliana. PLoS One, 6:e28070. PubMed | DOI
Arraouadi S, Chardon F, Huguet T, Aouani ME, Badri M (2010). QTLs mapping of morphological traits related to salt tolerance in Medicago truncatula. Acta Physiologiae Plantarum, 33:917-926. PubMed | DOI
Chardon F, Barthelemy J, Daniel-Vedele F, Masclaux-Daubresse C (2010). Natural variation of nitrate uptake and nitrogen use efficiency in Arabidopsis thaliana cultivated with limiting and ample nitrogen supply. J Exp Bot, 61:2293-2302. PubMed | DOI
Debouba M, Suzuki A, Boutet S, Ghorbek MH, Gouia H (2010). Aminoacid changes in leaves and roots of tomato(Solanum lycopersicum)during salt stress. Acta Botanica Gallica, 157:255-264. PubMed | DOI
Gaufichon L, Reisdorf-Cren M, Rothstein SJ, Chardon F, Suzuki A (2010). Biological functions of asparagine synthetase in plants. Plant Science, 179:141-153. PubMed | DOI
Guiboileau A, Sormani R, Meyer C, Masclaux-Daubresse C (2010). Senescence and death of plant organs: nutrient recycling and developmental regulation. C R Biol, 333:382-391. PubMed | DOI
Masclaux-Daubresse C, Daniel-Vedele F, Dechorgnat J, Chardon F, Gaufichon L, Suzuki A (2010). Nitrogen uptake, assimilation and remobilization in plants: challenges for sustainable and productive agriculture. Ann Bot, 105:1141-1157. PubMed | DOI
Wingler A, Purdy SJ, Edwards SA, Chardon F, Masclaux-Daubresse C (2010). QTL analysis for sugar-regulated leaf senescence supports flowering-dependent and -independent senescence pathways. New Phytol, 185:420-433. PubMed | DOI
Lazrek F, Roussel V, Ronfort J, Cardinet G, Chardon F, Aouani ME, Huguet T (2009). The use of neutral and non-neutral SSRs to analyse the genetic structure of a Tunisian collection of Medicago truncatula lines and to reveal associations with eco-environmental variables. Genetica, 135:391-402. PubMed | DOI
Potel F, Valadier MH, Ferrario-Méry S, Grandjean O, Morin H, Gaufichon L, Boutet-Mercey S, Lothier J, Rothstein SJ, Hirose N, Suzuki A (2009). Assimilation of excess ammonium into amino acids and nitrogen translocation in Arabidopsis thaliana--roles of glutamate synthases and carbamoylphosphate synthetase in leaves. FEBS J, 276:4061-4076. PubMed | DOI
Wingler A, Masclaux-Daubresse C, Fischer AM (2009). Sugars, senescence, and ageing in plants and heterotrophic organisms. J Exp Bot, 60:1063-1066. PubMed | DOI
Diaz C, Lemaitre T, Christ A, Azzopardi M, Kato Y, Sato F, Morot-Gaudry JF, Le Dily F, Masclaux-Daubresse C (2008). Nitrogen recycling and remobilization are differentially controlled by leaf senescence and development stage in Arabidopsis under low nitrogen nutrition. Plant Physiol, 147:1437-1449. PubMed | DOI
Lemaitre T, Gaufichon L, Boutet-Mercey S, Christ A, Masclaux-Daubresse C (2008). Enzymatic and metabolic diagnostic of nitrogen deficiency in Arabidopsis thaliana Wassileskija accession. Plant Cell Physiol, 49:1056-1065. PubMed | DOI
Masclaux-Daubresse C, Reisdorf-Cren M, Orsel M (2008). Leaf nitrogen remobilisation for plant development and grain filling. Plant Biol (Stuttg), 10 Suppl 1:23-36. PubMed | DOI
Valadier MH, Yoshida A, Grandjean O, Morin H, Kronenberger J, Boutet S, Raballand A, Hase T, Yoneyama T, Suzuki A (2008). Implication of the glutamine synthetase/glutamate synthase pathway in conditioning the amino acid metabolism in bundle sheath and mesophyll cells of maize leaves. FEBS J, 275:3193-3206. PubMed | DOI
Chopin F, Orsel M, Dorbe MF, Chardon F, Truong HN, Miller AJ, Krapp A, Daniel-Vedele F (2007). The Arabidopsis ATNRT2.7 nitrate transporter controls nitrate content in seeds. Plant Cell, 19:1590-1602. PubMed | DOI
Debouba M, Maaroufi-Dghimi H, Suzuki A, Ghorbel MH, Gouia H (2007). Changes in growth and activity of enzymes involved in nitrate reduction and ammonium assimilation in tomato seedlings in response to NaCl stress. Ann Bot, 99:1143-1151. PubMed | DOI
Hirel B, Chardon F, Durand J (2007). The contribution of molecular physiology to the improvement of nitrogen use efficiency in crops. J Crop Sci Biotech, 10:123-132. PubMed | DOI
Martinelli T, Whittaker A, Bochicchio A, Vazzana C, Suzuki A, Masclaux-Daubresse C (2007). Amino acid pattern and glutamate metabolism during dehydration stress in the 'resurrection' plant Sporobolus stapfianus: a comparison between desiccation-sensitive and desiccation-tolerant leaves. J Exp Bot, 58:3037-3046. PubMed | DOI
Martinelli T, Whittaker A, Masclaux-Daubresse C, Farrant JM, Brilli F, Loreto F, Vazzana C (2007). Evidence for the presence of photorespiration in desiccation-sensitive leaves of the C4 'resurrection' plant Sporobolus stapfianus during dehydration stress. J Exp Bot, 58:3929-3939. PubMed | DOI
Masclaux-Daubresse C, Purdy S, Lemaitre T, Pourtau N, Taconnat L, Renou JP, Wingler A (2007). Genetic variation suggests interaction between cold acclimation and metabolic regulation of leaf senescence. Plant Physiol, 143:434-446. PubMed | DOI
Tavernier V, Cadiou S, Pageau K, Lauge R, Reisdorf-Cren M, Langin T, Masclaux-Daubresse C (2007). The plant nitrogen mobilization promoted by Colletotrichum lindemuthianum in Phaseolus leaves depends on fungus pathogenicity. J Exp Bot, 58:3351-3360. PubMed | DOI
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