Veröffentlichungen Frank Ludewig

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Mekonnen, D.W., Ludewig, F.   (2017)     The suppression of Arabidopsis succinic semialdehyde dehydrogenase (SSADH) phenotype by using ethyl methane sulfonate (EMS) mutagenesis.       Afr. J. Plant Sci. 11, 298-307.
Scholz, S., Malabarba, J., Reichelt, M., Heyer, M., Ludewig, F., Mithöfer, A.   (2017)     Evidence for GABA-induced systemic GABA accumulation in Arabidopsis upon wounding.       Front. Plant Sci. 8, 388.
Nieberl, P., Ehrl, C., Pommerrenig, B., Graus, D., Marten, I., Jung, B., Ludewig, F., Koch, W., Harms, K., Flügge, U.-I., Neuhaus, H.E., Hedrich, R., Sauer, N.   (2017)     Functional characterisation and cell specificity of BvSUT1, the transporter that loads sucrose into the phloem of sugar beet (Beta vulgaris L.) source leaves.       Plant Biol. 19, 315-326.   doi:10.1111/plb.12546.
Ludewig, F., Sonnewald, U.   (2016)     Demand for food as driver for plant sink development.     J. Plant Physiol. 203, 110-115.
Mekonnen, D. W., Ludewig, F.   (2016)     Phenotypic and chemotypic studies using Arabidopsis and yeast reveal that GHB converts to SSA and induce toxicity.     Plant Mol. Biol. 91, 429-440.
Mekonnen, D. W., Flügge, U.-I., Ludewig, F.   (2016)     Gamma-aminobutyric acid depletion affects stomata closure and drought tolerance of Arabidopsis thaliana.     Plant Sci. 245, 25-34.
Scholz, S., Reichelt, M., Mekonnen, D. W., Ludewig, F., Mithöfer, A.   (2015)     Insect herbivory-elicited GABA accumulation in plants is a wound-induced, direct, systemic, and jasmonate-independent defense response.     Front. Plant Sci.   doi: 10.3389/fpls.2015.01128.
Jung, B., Ludewig, F., Schulz, A., Meißner, G., Wöstefeld, N., Flügge, U.-I., Pommerrenig, B., Wirsching, P., Sauer, N., Koch, W., Sommer, F., Mühlhaus, T., Schroda, M., Cuin, T., Graus, D., Marten, I., Hedrich, R., Neuhaus, H.E.   (2014)     Identification of the transporter responsible for sucrose accumulation in sugar beet taproots.     Nat. Plants 1, 14001.   doi: 10.1038/nplants.2014.1.
Häusler, R.E., Ludewig, F., Krüger, S.   (2014)     Amino acids - a life between metabolism and signaling.     (Review)   Plant Sci. 229, 225-237.
Ludewig, F., Flügge, U.-I.   (2013)     Role of metabolite transporters in source-sink carbon allocation.     (Review)   Front. Plant Sci. 4, 231.   doi: 10.3389/fpls.2013.00231.
Jonik, C., Sonnewald, U., Hajirezaei, M.-R., Flügge, U.-I., Ludewig, F.   (2012)     Simultaneous boosting of source and sink capacities doubles tuber starch yield of triple-transgenic potato plants.     Plant Biotech J. 10, 1088-1098.
Flügge, U.-I., Häusler, R.E., Ludewig, F., Gierth, M.   (2011)     The role of transporters in supplying energy to plant plastids.     J. Exp. Bot. 62, 2381-2392.
Ludewig, F., Hüser, A., Fromm, H., Beauclair, L., Bouché, N.   (2008)     Mutants of GABA transaminase (POP2) suppress the severe phenotype of succinic semialdehyde dehydrogenase (ssadh) mutants in Arabidopsis.     PLoS One 3 (10), e3383.
Zhang, L., Häusler, R.E., Greiten, C., Hajirezaei, M.-R., Haferkamp, I., Neuhaus, H.E., Flügge, U.-I., Ludewig, F.   (2008)     Overriding the co-limiting import of carbon and energy into tuber amyloplasts increases the starch content and yield of transgenic potato plants.       Plant Biotech. J. 6, 453-464.
Martin, T., Ludewig, F.   (2007)     Transporters in starch synthesis.       Funct. Plant Biol. 34, 474-479.
Flügge, U.-I., Häusler, R.E., Ludewig, F., Fischer, K.   (2003)     Functional genomics of phosphate antiport systems of plastids.       Physiol. Plant. 118, 475-482.
Ludewig, F., Sonnewald, U.   (2000)     High CO2-mediated down-regulation of photosynthetic gene transcripts is caused by accelerated leaf senescence rather than sugar accumulation.       FEBS Lett. 479, 19-24.
Kauder, F., Ludewig, F., Heineke, D.   (2000)     Ontogenic changes of potato plants during acclimation to elevated carbon dioxide.       J. Exp. Bot. 51 (spec. no), 429-437.
Geiger, M., Haake, V., Ludewig, F., Sonnewald, U., Stitt, M.   (1999)     The nitrate and ammonium nitrate supply have a major influence on the response of photosynthesis, carbon metabolism, nitrogen metabolism and growth to elevated carbon dioxide in tobacco.       Plant Cell Environ. 22, 1177-1199.
Heineke, D., Kauder, F., Frommer, W.B., Kühn, C., Gillissen, B., Ludewig, F., Sonnewald, U.   (1999)     Application of transgenic plants in understanding responses to atmospheric change.       Plant Cell Environ. 22, 623-628.
Ludewig, F., Sonnewald, U., Kauder, F., Heineke, D., Geiger, M., Stitt, M., Müller-Röber, B.T., Gillissen, B., Kühn, C., Frommer, W.B.   (1998)     The role of transient starch in acclimation to elevated atmospheric CO2.       FEBS Lett. 429, 147-151.
Geiger, M., Walch-Liu, P., Engels, C., Harnecker, J., Schulze, E.-D., Ludewig, F., Sonnewald, U., Scheible, W.R., Stitt, M.   (1998)     Enhanced carbon dioxide leads to a modified diurnal rhythm of nitrate reductase activity in older plants, and a large stimulation of nitrate reductase activity and higher levels of amino acids in young tobacco plants.       Plant Cell Environ. 21, 253-268.
Badur, R., Herbers, K., Mönke, G., Ludewig, F., Sonnewald, U.   (1994)     Induction of pathogenesis-related proteins in sugar accumulating tobacco leaves.       Photosynthetica 30, 575-582.