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Overview of funding institutions
Max Planck Institute of Molecular Plant Physiology (MPIMP)
Institution
Section overview
Description
The mission of the Max Planck Institute of Molecular Plant Physiology is to study the dynamics of plant metabolism in the context of the plant system as a whole. Since the system is more than a collection of genes and gene products, we focus our efforts on how these components dynamically interact over time and under different conditions. By combining traditional biological approaches with techniques relevant to functional genomics, we are forming a holistic view of structure, function, dynamics and regulation of entire plant genomes, proteomes and metabolomes.
Activities
- Research
Parent institution
Networks
Coordinated projects
- A user-driven tool to organize and map large data sets like transcript and metabolite profiles onto known pathways and cellular processes
- Agricultural systems for future: AGROKOKO
- Agricultural systems for the future: Co-Ordination and communication
- Collaborative project: Elucidating the impact of biodiversity in soils on growth and fitness of the crop maize by combining ´omics´-based quality (in silico) modelling and reconstruction biology - subproject E
- Collaborative project: GABI COOL 2: Genomics of cool tolerance in maize, part of project 4
- DFG Trilateral collaboration Deutschland-Israel-Palestine: Drought Tolerant Sun-Dried Tomatoes: A Novel Product Based on Heterotic Natural Biodiversity
- EpiC - Epigenetics: elucidation of epigenetic mechanisms of endosperm formation for the development of apomictic crops - TP A
- Ethical, legal and socioeconomic aspects of genome editing in agriculture. Subproject 5: communication and dissemination
- European Training and Networking Activity in Plant Genomics and Bioinformatics
- Evaluating and improving the biosafety transplastomer plants and development of a Plastidentransformationstechnologie for maize
- GABI - PLANT KBBE II - Joint project 'ExpResBar': Exploiting genetic variation for resistance to important pathogens in barley. Subproject F
- GABI FUTURE - Collaborative Project: 'Integrated Modeling of the primary metabolism of the developing barley endosperm under the influence of hormonal regulation (GABI SysSEED)'; Project Part C
- GABI FUTURE - Collaborative Project: 'MAPMEN: a portfolio of user-driven tools for the design, management, visualization and analysis of functional genomics. (GABI MAPMEN)' Subproject A
- GABI FUTURE Alliance project: 'Biomass production in corn: genomics-based and system-oriented plant breeding for corn to energy' (GABI-ENERGY): Project D
- GABI Future collaborative projects: 'Development of barley lines with increased yield and improved quality seeds under drought stress during the grain filling (GABI GRAIN) Project Part D
- GABI FUTURE: GABI Primary Database (GABI-PD)
- GABI-EVAST: EValuation of the power of ASsociation Tests versus QTL mapping
- GABI-FUTURE - Joint project: 'Analysis of the compartmentalization and regulation of carbohydrate metabolism of potato tubers by novel combination of biochemical and genomic approaches (GABI-FLUX)' (Project B)
- GABI-FUTURE-collaborative projects: 'Biometrics and bioinformatics tools for genomics based plant (GABI-GAIN) '(Project C)
- GABI-FUTURE-collaborative projects: 'calcium and protein kinase-mediated signal transduction in plants - a functional genomic-biochemical approach based on a novel strategy to improve the performance of crops under environmental stress (GABI-CAPSITRAP)' (Project B)
- GABI-FUTURE-collaborative projects: Functional genomics to improve the nitrogen utilization of crops through identification of appropriate key genes and metabolic markers (GABI FUNCIN) '(Project C)
- GABI-TILLING: Establishment of a central platform for testing lead gene function in crops based on TILLING
- Genomic and metabolomic exploration of natural variability of fruit development and quality in tomato
- NATURAL DIVERSITY - Evaluation of the natural diversity in Arabidopsis thaliana for traits of agronomic or basic importance
- Plant biotechnology collaborative project: Genetic and Biomarker-based Predictive Breeding of Maize Cultivars - Sub-project G
- SolaMI
- SPP 1149: Analysis of heterosis in Arabidopsis thaliana via metabolic profiling
- Use of interactions of potato plants with its mikrobiom to develop sustainable breeding and farming strategies
- Use of mobile CRISPR/Cas9 transcripts to produce transgene free mutants in one generation by grafting
- VALDIS TROST - Validation of identified markers for selection of drought tolerant starch potatoes; subproject 1: tolerance selection under income receipt
Involved in research projects
- Activation tagging in aspen using an inducible two component Ac/Ds-enhancer element system
- CO-EXTRA - GM and non-GM supply chains : their CO-EXistence and TRAceability
- GABI-FUTURE - Joint project: 'Analysis of the compartmentalization and regulation of carbohydrate metabolism of potato tubers by novel combination of biochemical and genomic approaches (GABI-FLUX)' (Project A)
- GABI-FUTURE - Joint project: 'Analysis of the compartmentalization and regulation of carbohydrate metabolism of potato tubers by novel combination of biochemical and genomic approaches (GABI-FLUX)' (Project C)
- GABI-FUTURE - Joint project: 'Analysis of the compartmentalization and regulation of carbohydrate metabolism of potato tubers by novel combination of biochemical and genomic approaches (GABI-FLUX)' (Subproject D)
- GABI-FUTURE-collaborative projects: 'calcium and protein kinase-mediated signal transduction in plants - a functional genomic-biochemical approach based on a novel strategy to improve the performance of crops under environmental stress (GABI-CAPSITRAP)' (Project A)
- GABI-FUTURE-collaborative projects: 'calcium and protein kinase-mediated signal transduction in plants - a functional genomic-biochemical approach based on a novel strategy to improve the performance of crops under environmental stress (GABI-CAPSITRAP)' (Project C)
- GRAIN LEGUMES - New strategies to improve grain legumes for food and feed
- META-PHOR Metabolomic Technology Applications for plants, health and outreach
- Precision breeding: Optimizing hop breeding via genome and metabolite analysis
- SPP 1149: The role of transcription factors in heterosis for superior growth and biomass production in Arabidopsis thaliana
Contact
Max Planck Institute of Molecular Plant Physiology
(MPIMP)
Am Mühlenberg 1
14476 Potsdam
Brandenburg
Germany
Phone: +49 (331) 567 - 80
Fax: +49 (331) 567 - 8408
Email: contact(@)mpimp-golm.mpg.de