Summary
Chemical synthesis is often difficult and may be subject to unclear mechanisms, frequently producing undesired by-products, while the complexity of some compounds may rendered them virtually unattainable. Nature can provide a wealth of products, however typically at very low concentrations, which makes their extraction process expensive. Conversely, microbial production is a well-established process for compounds naturally produced by the hosts or for which there are fully characterised biosynthetic pathways. However, relying on nature’s diversity as a provider for industrial applications typically requires major screenings for pathways, genes and optimisation of cell factories for the efficient production of the target compounds.
SHIKIFACTORY100 project aims towards the production of a universe of more than 100 high-added value compounds from the shikimate pathway, a hub in cell metabolism, through the development of an optimised shikimate chassis) and the proposal and implementation of novel biosynthetic routes exploring enzyme promiscuity to propose new pathways for the production of known and newly designed compounds. To champion SHIKIFACTORY100 project a consortium with some of the most relevant players in Europe has been assembled, covering research leading institutions in computational design, rapid prototyping and in vivo implementation of pathways and cell factories. As such, six world-leading research partners, four biotechnology SMEs with complementary focus areas and one large industrial company have been integrated. The research partners will be responsible for novel methods for pathway discovery and compound design, collaborating with the SMEs in the implementation and optimisation of the chassis, while SMEs and industrial partners will lead the assessment of the products and the exploitation of the results for different application areas. The industrial partner will be responsible for the validation of the production.
SHIKIFACTORY100 project aims towards the production of a universe of more than 100 high-added value compounds from the shikimate pathway, a hub in cell metabolism, through the development of an optimised shikimate chassis) and the proposal and implementation of novel biosynthetic routes exploring enzyme promiscuity to propose new pathways for the production of known and newly designed compounds. To champion SHIKIFACTORY100 project a consortium with some of the most relevant players in Europe has been assembled, covering research leading institutions in computational design, rapid prototyping and in vivo implementation of pathways and cell factories. As such, six world-leading research partners, four biotechnology SMEs with complementary focus areas and one large industrial company have been integrated. The research partners will be responsible for novel methods for pathway discovery and compound design, collaborating with the SMEs in the implementation and optimisation of the chassis, while SMEs and industrial partners will lead the assessment of the products and the exploitation of the results for different application areas. The industrial partner will be responsible for the validation of the production.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/814408 |
| Start date: | 01-01-2019 |
| End date: | 30-06-2023 |
| Total budget - Public funding: | 7 997 537,00 Euro - 7 995 343,00 Euro |
Cordis data
Original description
Chemical synthesis is often difficult and may be subject to unclear mechanisms, frequently producing undesired by-products, while the complexity of some compounds may rendered them virtually unattainable. Nature can provide a wealth of products, however typically at very low concentrations, which makes their extraction process expensive. Conversely, microbial production is a well-established process for compounds naturally produced by the hosts or for which there are fully characterised biosynthetic pathways. However, relying on nature’s diversity as a provider for industrial applications typically requires major screenings for pathways, genes and optimisation of cell factories for the efficient production of the target compounds.SHIKIFACTORY100 project aims towards the production of a universe of more than 100 high-added value compounds from the shikimate pathway, a hub in cell metabolism, through the development of an optimised shikimate chassis) and the proposal and implementation of novel biosynthetic routes exploring enzyme promiscuity to propose new pathways for the production of known and newly designed compounds. To champion SHIKIFACTORY100 project a consortium with some of the most relevant players in Europe has been assembled, covering research leading institutions in computational design, rapid prototyping and in vivo implementation of pathways and cell factories. As such, six world-leading research partners, four biotechnology SMEs with complementary focus areas and one large industrial company have been integrated. The research partners will be responsible for novel methods for pathway discovery and compound design, collaborating with the SMEs in the implementation and optimisation of the chassis, while SMEs and industrial partners will lead the assessment of the products and the exploitation of the results for different application areas. The industrial partner will be responsible for the validation of the production.
Status
SIGNEDCall topic
BIOTEC-03-2018Update Date
27-10-2022
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Organisations
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| SILICOLIFE LDA (Coördinator)
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| C-LECTA GMBH
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| DANMARKS TEKNISKE UNIVERSITET
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| DSM FOOD SPECIALTIES BV
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| ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)
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| EUROPEAN MOLECULAR BIOLOGY LABORATORY
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| GALCHIMIA SA
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| THE NATIONAL NON FOOD CROPS CENTRELBG
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| THE UNIVERSITY OF CAMBRIDGE
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| THE UNIVERSITY OF MANCHESTER
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| UNIVERSIDADE DO MINHO
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| UNIVERSIDADE NOVA DE LISBOA (NSPH)
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| UPV. UNIVERSITAT POLITECNICA DE VALENCIA