Publications of M. Lehmann

Journal Article (6)

Journal Article
Lehmann, M., Laxa, M., Sweetlove, L. J., Fernie, A. R. & Obata, T. Metabolic recovery of Arabidopsis thaliana roots following cessation of oxidative stress. Metabolomics 8, 143–153 (2012).
Journal Article
Araujo, W. L., Nunes-Nesi, A., Osorio, S., Usadel, B., Fuentes, D., Nagy, R., Balbo, I., Lehmann, M., Studart-Witkowski, C., Tohge, T., Martinoia, E., Jordana, X., DaMatta, F. M. & Fernie, A. R. Antisense Inhibition of the Iron-Sulphur Subunit of Succinate Dehydrogenase Enhances Photosynthesis and Growth in Tomato via an Organic Acid-Mediated Effect on Stomatal Aperture. The Plant Cell 23, 600–627 (2011).
Journal Article
Fait, A., Nunes Nesi, A., Angelovici, R., Lehmann, M., Pham, P. A., Song, L., Haslam, R. P., Napier, J. A., Galili, G. & Fernie, A. R. Targeted Enhancement of Glutamate-to-gamma-Aminobutyrate Conversion in Arabidopsis Seeds Affects Carbon-Nitrogen Balance and Storage Reserves in a Development-Dependent Manner. Plant Physiology 157, 1026–1042 (2011).
Journal Article
Obata, T., Matthes, A., Koszior, S., Lehmann, M., Araujo, W. L., Bock, R., Sweetlove, L. J. & Fernie, A. R. Alteration of mitochondrial protein complexes in relation to metabolic regulation under short-term oxidative stress in Arabidopsis seedlings. Phytochemistry 72, 1081–1091 (2011).
Journal Article
Lehmann, M., Schwarzlander, M., Obata, T., Sirikantaramas, S., Burow, M., Olsen, C. E., Tohge, T., Fricker, M. D., Moller, B. L., Fernie, A. R., Sweetlove, L. J. & Laxa, M. The Metabolic Response of Arabidopsis Roots to Oxidative Stress is Distinct from that of Heterotrophic Cells in Culture and Highlights a Complex Relationship between the Levels of Transcripts, Metabolites, and Flux. Molecular Plant 2, 390–406 (2009).
Journal Article
Morgan, M. J., Lehmann, M., Schwarzlander, M., Baxter, C. J., Sienkiewicz-Porzucek, A., Williams, T. C. R., Schauer, N., Fernie, A. R., Fricker, M. D., Ratcliffe, R. G., Sweetlove, L. J. & Finkemeier, I. Decrease in manganese superoxide dismutase leads to reduced root growth and affects tricarboxylic acid cycle flux and mitochondrial redox homeostasis. Plant Physiology 147, 101–114 (2008).
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