Projects
Project Area A: Yield Regulation
- TP A01 Characterization of gibberellin-regulated gene expression networks during abiotic stress response.
Prof. Dr. Claus Schwechheimer TP A02 Receptor kinase-mediated control of cell wall stress response.
Prof. Dr. Kay SchneitzTP A03 Hybridization barriers: CRP signalling during pollen tube invasion, growth and guidance.
Prof. Dr. Thomas DresselhausTP A04 Gamete interaction and fusion during double fertilization.
PD Dr. Stefanie SprunckTP A08 Amino acid translocation to sink tissues and in organismic interactions.
PD Dr. Ulrich Hammes- TP A13 Predicting heterosis in F1 hybrids from parental DNA methylomes.
Prof. Dr. Frank Johannes - TP A14 Small secreted proteins in male flower development and pathogenicity in maize.
Dr. Karina van der Linde - TP A15 RhoGTPase signaling in double fertilization.
Dr. Philipp Denninger
Project Area B: Yield Stability
TP B01 Molecular basis of water use efficiency mediated by ABA receptors.
Prof. Dr. Erwin GrillTP B02 Pleiotropy or linkage - one genomic segment controls multiple drought-related traits in maize.
Prof. Dr. Chris-Carolin Schön / Dr. Viktoriya Avramova
- TP B03 The role of the GRAS protein RAM1 in arbuscule development and function.
Prof. Dr. Caroline Gutjahr - TP B06 Plant-to-plant signaling in biotic and abiotic stress tolerance in Arabidopsis and barley.
Prof. Dr. A. Corina Vlot
- TP B08 Posttranslational regulation of RAC/ROP functions in barley disease susceptibility and basal resistance to powdery mildew.
Prof. Dr. Ralph Hückelhoven - TP B10 LORE-mediatded immunity in Brassicaceae.
Prof. Dr. Stefanie Ranf - TP B11 Spatio-temporal dynamics of the CCaMK/CYCLOPS complex.
Prof. Dr. Martin Parniske - TP B12 Molecular assessment of metabolome alterations in Hordeum vulgare induced by net blotch.
Prof. Dr. Corinna Dawid - TP B13 Molecular evolution of pathogen defence in wild tomato species.
Prof. Dr. Remco Stam - TP B14 Small RNA transport from pathogens to plants.
Dr. Arne Weiberg - TP B15 Molecular basis of plant susceptibility mediated by microbe-derived vesicles.
Prof. Dr. Silke Robatzek
