| The crucial role of plant mitochondria in orchestrating drought tolerance OK Atkin, D Macherel Annals of botany 103 (4), 581-597, 2009 | 585 | 2009 |
| Identification in pea seed mitochondria of a late-embryogenesis abundant protein able to protect enzymes from drying J Grelet, A Benamar, E Teyssier, MH Avelange-Macherel, D Grunwald, ... Plant physiology 137 (1), 157-167, 2005 | 312 | 2005 |
| Structure and function of a mitochondrial late embryogenesis abundant protein are revealed by desiccation D Tolleter, M Jaquinod, C Mangavel, C Passirani, P Saulnier, S Manon, ... The Plant Cell 19 (5), 1580-1589, 2007 | 294 | 2007 |
| Fatty acid and lipoic acid biosynthesis in higher plant mitochondria V Gueguen, D Macherel, M Jaquinod, R Douce, J Bourguignon Journal of Biological Chemistry 275 (7), 5016-5025, 2000 | 256 | 2000 |
| The Ubiquitous Distribution of Late Embryogenesis Abundant Proteins across Cell Compartments in Arabidopsis Offers Tailored Protection against Abiotic Stress A Candat, G Paszkiewicz, M Neveu, R Gautier, DC Logan, ... The Plant Cell 26 (7), 3148-3166, 2014 | 217 | 2014 |
| A survey of the plant mitochondrial proteome in relation to development J Bardel, M Louwagie, M Jaquinod, A Jourdain, S Luche, T Rabilloud, ... PROTEOMICS: International Edition 2 (7), 880-898, 2002 | 201 | 2002 |
| A mitochondrial late embryogenesis abundant protein stabilizes model membranes in the dry state D Tolleter, DK Hincha, D Macherel Biochimica et Biophysica Acta (BBA)-Biomembranes 1798 (10), 1926-1933, 2010 | 189 | 2010 |
| Functional divergence of former alleles in an ancient asexual invertebrate NN Pouchkina-Stantcheva, BM McGee, C Boschetti, D Tolleter, ... Science 318 (5848), 268-271, 2007 | 187 | 2007 |
| Folate biosynthesis in higher plants: purification and molecular cloning of a bifunctional 6‐hydroxymethyl‐7, 8‐dihydropterin pyrophosphokinase/7, 8‐dihydropteroate synthase … F Rebeille, D Macherel, JM Mouillon, J Garin, R Douce The EMBO journal, 1997 | 158 | 1997 |
| LEA proteins: versatility of form and function A Tunnacliffe, DK Hincha, O Leprince, D Macherel Dormancy and resistance in harsh environments, 91-108, 2010 | 153 | 2010 |
| Nitrite–nitric oxide control of mitochondrial respiration at the frontier of anoxia A Benamar, H Rolletschek, L Borisjuk, MH Avelange-Macherel, G Curien, ... Biochimica et Biophysica Acta (BBA)-Bioenergetics 1777 (10), 1268-1275, 2008 | 150 | 2008 |
| Membrane integrity and oxidative properties of mitochondria isolated from imbibing pea seeds after priming or accelerated ageing A Benamar, C Tallon, D Macherel Seed Science Research 13 (1), 35-45, 2003 | 139 | 2003 |
| Redox-mediated kick-start of mitochondrial energy metabolism drives resource-efficient seed germination T Nietzel, J Mostertz, C Ruberti, G Née, P Fuchs, S Wagner, A Moseler, ... Proceedings of the National Academy of Sciences 117 (1), 741-751, 2020 | 124 | 2020 |
| Low oxygen sensing and balancing in plant seeds: a role for nitric oxide L Borisjuk, D Macherel, A Benamar, U Wobus, H Rolletschek New Phytologist 176 (4), 813-823, 2007 | 112 | 2007 |
| Arabidopsis seed mitochondria are bioenergetically active immediately upon imbibition and specialize via biogenesis in preparation for autotrophic growth G Paszkiewicz, JM Gualberto, A Benamar, D Macherel, DC Logan The Plant Cell 29 (1), 109-128, 2017 | 107 | 2017 |
| Pea seed mitochondria are endowed with a remarkable tolerance to extreme physiological temperatures I Stupnikova, A Benamar, D Tolleter, J Grelet, G Borovskii, AJ Dorne, ... Plant Physiology 140 (1), 326-335, 2006 | 102 | 2006 |
| PrCYP707A1, an ABA catabolic gene, is a key component of Phelipanche ramosa seed germination in response to the strigolactone analogue GR24 MM Lechat, JB Pouvreau, T Péron, M Gauthier, G Montiel, C Véronési, ... Journal of Experimental Botany 63 (14), 5311-5322, 2012 | 101 | 2012 |
| Dimethyl Disulfide Exerts Insecticidal Neurotoxicity Through Mitochondrial Dysfunction and Activation of Insect KATP Channels S Dugravot, F Grolleau, D Macherel, A Rochetaing, B Hue, M Stankiewicz, ... Journal of neurophysiology 90 (1), 259-270, 2003 | 99 | 2003 |
| Glucosinolate-derived isothiocyanates impact mitochondrial function in fungal cells and elicit an oxidative stress response necessary for growth recovery B Calmes, G N’Guyen, J Dumur, CA Brisach, C Campion, B Iacomi, ... Frontiers in Plant Science 6, 414, 2015 | 97 | 2015 |
| Site-directed mutagenesis of histidine residues in the Δ12 acyl-lipid desaturase of Synechocystis MH Avelange-Macherel, D Macherel, H Wada, N Murata FEBS letters 361 (1), 111-114, 1995 | 93 | 1995 |
