Summary
In the face of the increasing global consumption of fossil resources, photosynthetic organisms offer an attractive alternative that could meet our rising future needs as clean, renewable, sources of energy and for the production of fine chemicals. Key to the efficient exploitation of these organisms is to optimise the conversion of Solar Energy into Biomass (SE2B). The SE2B network deals with this optimisation in an interdisciplinary approach including molecular biology, biochemistry, biophysics and biotechnology. Regulation processes at the level of the photosynthetic membranes, integrating molecular processes within individual proteins up to flexible re-arrangements of the membranes, will be analysed as a dynamic network of interacting regulations. SE2B will yield information about the similarities and differences between cyanobacteria, green algae, diatoms and higher plants, the organisms most commonly employed in biotechnological approaches exploiting photosynthetic organisms, as well as in agriculture.
The knowledge gained from understanding these phenomena will be directly transferred to increase the productivity of algal mass cultures for valuable products, and for the development of sophisticated analytic devices that are used to optimise this production. In future, the knowledge created can also be applicable to the design of synthetic cell factories with efficient light harvesting and energy conversion systems.
The SE2B network will train young researchers to work at the forefront of innovations that shape the bio-based economy. SE2B will develop a training program based on individual and network-wide training on key research and transferable skills, and will furthermore disseminate these results by open online courses prepared by the young researchers themselves.
The knowledge gained from understanding these phenomena will be directly transferred to increase the productivity of algal mass cultures for valuable products, and for the development of sophisticated analytic devices that are used to optimise this production. In future, the knowledge created can also be applicable to the design of synthetic cell factories with efficient light harvesting and energy conversion systems.
The SE2B network will train young researchers to work at the forefront of innovations that shape the bio-based economy. SE2B will develop a training program based on individual and network-wide training on key research and transferable skills, and will furthermore disseminate these results by open online courses prepared by the young researchers themselves.
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| Web resources: | https://cordis.europa.eu/project/id/675006 |
| Start date: | 01-03-2016 |
| End date: | 31-08-2020 |
| Total budget - Public funding: | 3 839 377,33 Euro - 3 839 377,00 Euro |
Cordis data
Original description
In the face of the increasing global consumption of fossil resources, photosynthetic organisms offer an attractive alternative that could meet our rising future needs as clean, renewable, sources of energy and for the production of fine chemicals. Key to the efficient exploitation of these organisms is to optimise the conversion of Solar Energy into Biomass (SE2B). The SE2B network deals with this optimisation in an interdisciplinary approach including molecular biology, biochemistry, biophysics and biotechnology. Regulation processes at the level of the photosynthetic membranes, integrating molecular processes within individual proteins up to flexible re-arrangements of the membranes, will be analysed as a dynamic network of interacting regulations. SE2B will yield information about the similarities and differences between cyanobacteria, green algae, diatoms and higher plants, the organisms most commonly employed in biotechnological approaches exploiting photosynthetic organisms, as well as in agriculture.The knowledge gained from understanding these phenomena will be directly transferred to increase the productivity of algal mass cultures for valuable products, and for the development of sophisticated analytic devices that are used to optimise this production. In future, the knowledge created can also be applicable to the design of synthetic cell factories with efficient light harvesting and energy conversion systems.
The SE2B network will train young researchers to work at the forefront of innovations that shape the bio-based economy. SE2B will develop a training program based on individual and network-wide training on key research and transferable skills, and will furthermore disseminate these results by open online courses prepared by the young researchers themselves.
Status
CLOSEDCall topic
MSCA-ITN-2015-ETNUpdate Date
28-04-2024
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Organisations
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| JOHANN WOLFGANG GOETHE-UNIVERSITAET FRANKFURT AM MAIN (Coördinator)
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| PHYCOSOURCE
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| PSI (PHOTON SYSTEMS INSTRUMENTS), SPOL. SRO
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| QUEEN MARY UNIVERSITY OF LONDON
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| RIJKSUNIVERSITEIT GRONINGEN (RUG)
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| STICHTING VU
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| TURUN YLIOPISTO (UTU)
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| UMEA UNIVERSITET
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| UNIVERSITA DEGLI STUDI DI VERONA
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| UNIVERZITA PALACKEHO V OLOMOUCI
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| WAGENINGEN UNIVERSITY