FOR 948: Nitrogen uptake, metabolism and remobilization in leaves during plant senescence
DFG-FOR948 is funded by the DFG to research nitrogen uptake, metabolism and remobilization in leaves during plant senescence. An integrated approach is undertaken to improve the basic understanding, prognosis and modulation of N retranslocation during senescence for an efficient use of nitrogen input in agricultural plant production. In order to meet this challenge, the research group is composed of plant scientists with agricultural and/or molecular biological background and a seed breeding company integrating studies at the molecular, biochemical, physiological, cytological and whole-plant level. Target crops are oilseed rape and barley. The model plant Arabidopsis thaliana will be used for the identification of key genes regulating senescence and for their functional characterization by reverse genetic approaches.
FOR 948: Nitrogen uptake, metabolism and remobilization in leaves during plant senescence
DFG-FOR948 is funded by the DFG to research nitrogen uptake, metabolism and remobilization in leaves during plant senescence. An integrated approach is undertaken to improve the basic understanding, prognosis and modulation of N retranslocation during senescence for an efficient use of nitrogen input in agricultural plant production. In order to meet this challenge, the research group is composed of plant scientists with agricultural and/or molecular biological background and a seed breeding company integrating studies at the molecular, biochemical, physiological, cytological and whole-plant level. Target crops are oilseed rape and barley. The model plant Arabidopsis thaliana will be used for the identification of key genes regulating senescence and for their functional characterization by reverse genetic approaches.
Gesamtfördermittel:
Koordinierende Institution:
Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung (IPK) Details von IPK
Bereichsleiter:
Teilprojekte
Teilprojekte
- FOR 948 P1: The role of hydrogen peroxide as signalling molecule in leaf senescence and its impact on senescence-induced nitrogen mobilisation - Detailsvon FOR 948 P1: The role of hydrogen peroxide as signalling molecule in leaf senescence and its impact on senescence-induced nitrogen mobilisation
- FOR 948 P2: Role of NAC transcription factors in plant senescence - Detailsvon FOR 948 P2: Role of NAC transcription factors in plant senescence
- FOR 948 P3: Degradation of chloroplast proteins- involvement of senescence associated vacuoles and cysteine proteases - Detailsvon FOR 948 P3: Degradation of chloroplast proteins- involvement of senescence associated vacuoles and cysteine proteases
- FOR 948 P4: Nitrogen deficiency and senescence in Arabidopsis and oilseed rape: Transcriptome response and the role of peptide transporters - Detailsvon FOR 948 P4: Nitrogen deficiency and senescence in Arabidopsis and oilseed rape: Transcriptome response and the role of peptide transporters
- FOR 948 P5: Forms of retranslocated nitrogen during leaf senescence and nitrogen deficiency - Detailsvon FOR 948 P5: Forms of retranslocated nitrogen during leaf senescence and nitrogen deficiency
- FOR 948 P6: Relation between metabolic control of leaf senescence by carbohydrates and nitrogen metabolism - Detailsvon FOR 948 P6: Relation between metabolic control of leaf senescence by carbohydrates and nitrogen metabolism
- FOR 948 P7: Senescence and nitrogen remobilization at plant level as affected by carbon and nitrogen source variation - Detailsvon FOR 948 P7: Senescence and nitrogen remobilization at plant level as affected by carbon and nitrogen source variation
- FOR 948 P8: Relationship between senescence-induced N remobilisation and seed filling in barley - Detailsvon FOR 948 P8: Relationship between senescence-induced N remobilisation and seed filling in barley
- FOR 948 P9: The role of leaf senescence in relation to nitrogen uptake and translocation to the reproductive plant organs for genotypic differences in nitrogen efficiency of rapeseed - Detailsvon FOR 948 P9: The role of leaf senescence in relation to nitrogen uptake and translocation to the reproductive plant organs for genotypic differences in nitrogen efficiency of rapeseed
- FOR 948 P10: Senescence and ammonium homeostasis in source and sink organs - Detailsvon FOR 948 P10: Senescence and ammonium homeostasis in source and sink organs
- FOR 948 P11: Selection of rapeseed genotypes for efficient uptake and retranslocation of nitrogen - Detailsvon FOR 948 P11: Selection of rapeseed genotypes for efficient uptake and retranslocation of nitrogen