Summary
The world economy is dependent on fossil resources: oil, gas and coal. The fossil resources are finite and their consumption
causes catastrophic environmental changes. Therefore we need to move towards sustainable economy using renewable
resources for energy and chemicals production. Via metabolic engineering approach, novel microbial cells can be created
that can convert biomass and waste into fuels and chemicals. Metabolic engineering however distinguishes itself from other
engineering disciplines by low predictability of the design and long turnover times for the cell factory construction and screening. Therefore there is a need for scientists, who can address these challenges.
European Training Network on Predictable and Accelerated Metabolic Engineering Networks (PAcMEN) will be established
at 5 renowned European universities and 2 SMEs with participation of 5 industrial and 1 academic partner organizations. In this program 16 PhD students (of which 15 funded by EU contribution) will learn to conduct state-of-the-art research on metabolic engineering of microbial cell factories and learn to commercialize innovations. This will be achieved via collaborative research projects under supervision of top scientists from academia and industry, network training, secondments with network partners, training on innovation and entrepreneurship, and individual career coaching. Altogether, PAcMEN training programme will provide young scientists with the ideal combination of scientific, technological, industrial and management skills to prepare them for their role as breakthrough pioneers in the establishment of tomorrow’s biorefineries.
The PAcMEN project will have an overall positive impact by strengthening the research networks in the area of metabolic
engineering, establishing long-term collaborations between the universities and industry, and by creating a framework for
future interdisciplinary training programs.
causes catastrophic environmental changes. Therefore we need to move towards sustainable economy using renewable
resources for energy and chemicals production. Via metabolic engineering approach, novel microbial cells can be created
that can convert biomass and waste into fuels and chemicals. Metabolic engineering however distinguishes itself from other
engineering disciplines by low predictability of the design and long turnover times for the cell factory construction and screening. Therefore there is a need for scientists, who can address these challenges.
European Training Network on Predictable and Accelerated Metabolic Engineering Networks (PAcMEN) will be established
at 5 renowned European universities and 2 SMEs with participation of 5 industrial and 1 academic partner organizations. In this program 16 PhD students (of which 15 funded by EU contribution) will learn to conduct state-of-the-art research on metabolic engineering of microbial cell factories and learn to commercialize innovations. This will be achieved via collaborative research projects under supervision of top scientists from academia and industry, network training, secondments with network partners, training on innovation and entrepreneurship, and individual career coaching. Altogether, PAcMEN training programme will provide young scientists with the ideal combination of scientific, technological, industrial and management skills to prepare them for their role as breakthrough pioneers in the establishment of tomorrow’s biorefineries.
The PAcMEN project will have an overall positive impact by strengthening the research networks in the area of metabolic
engineering, establishing long-term collaborations between the universities and industry, and by creating a framework for
future interdisciplinary training programs.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/722287 |
| Start date: | 01-10-2016 |
| End date: | 30-09-2020 |
| Total budget - Public funding: | 3 967 591,76 Euro - 3 967 591,00 Euro |
Cordis data
Original description
The world economy is dependent on fossil resources: oil, gas and coal. The fossil resources are finite and their consumptioncauses catastrophic environmental changes. Therefore we need to move towards sustainable economy using renewable
resources for energy and chemicals production. Via metabolic engineering approach, novel microbial cells can be created
that can convert biomass and waste into fuels and chemicals. Metabolic engineering however distinguishes itself from other
engineering disciplines by low predictability of the design and long turnover times for the cell factory construction and screening. Therefore there is a need for scientists, who can address these challenges.
European Training Network on Predictable and Accelerated Metabolic Engineering Networks (PAcMEN) will be established
at 5 renowned European universities and 2 SMEs with participation of 5 industrial and 1 academic partner organizations. In this program 16 PhD students (of which 15 funded by EU contribution) will learn to conduct state-of-the-art research on metabolic engineering of microbial cell factories and learn to commercialize innovations. This will be achieved via collaborative research projects under supervision of top scientists from academia and industry, network training, secondments with network partners, training on innovation and entrepreneurship, and individual career coaching. Altogether, PAcMEN training programme will provide young scientists with the ideal combination of scientific, technological, industrial and management skills to prepare them for their role as breakthrough pioneers in the establishment of tomorrow’s biorefineries.
The PAcMEN project will have an overall positive impact by strengthening the research networks in the area of metabolic
engineering, establishing long-term collaborations between the universities and industry, and by creating a framework for
future interdisciplinary training programs.
Status
CLOSEDCall topic
MSCA-ITN-2016Update Date
28-04-2024
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Organisations
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| DANMARKS TEKNISKE UNIVERSITET (Coördinator)
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| BORREGAARD AS
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| Chalmers University of Technology
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| DONG ENERGY THERMAL POWER AS
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| DSM FOOD SPECIALTIES BV
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| ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)
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| EVOLVA AG
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| RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN - WZL
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| SESAM-BIOTECH GMBH
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| SILICOLIFE LDA
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| TECHNISCHE UNIVERSITEIT DELFT
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| THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
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| TeselaGen Biotechnology Inc.