Summary
The MAGIC-MOLFUN doctorial network (DN) will train the next generation of specialists for transforming natural products research. They will be educated in a combination of wet-lab and computational skills to integrate genome mining and metabolomics with cutting-edge pathway discovery- and engineering approaches. There is a fast-growing demand for these combination of skills, but these are rarely taught in current integrated training programs.
These multidisciplinary skills and qualifications will be acquired while achieving the scientific goals of the program, namely understanding and developing the complex biosynthesis and production of microbial NPs for cross-sector applications such as medicine, food, agriculture, or biotechnology. Specifically, the Doctoral Candidates (DCs) will work in three areas: (i) develop novel computational tools and algorithms to improve the identification and prediction quality of biosynthetic gene clusters encoding NP biosynthesis in genomic data. This genome-centred approach is complemented by (ii) the use cheminformatics approaches to link metabolomics data of NPs with the genomic data of the producers, which will greatly improve the compound discovery and dereplication process. These two data-centric approaches will finally (iii) converge into experimental applications that discover and characterize novel NPs with promising bioactivities (e.g., antibiotics, pre-/probiotics, agrichemicals, bio-pigments).
The scientific training program is complemented by a comprehensive transferable skill training that will equip the DCs for todays’ demands of a successful career in industry and academia. The skills obtained in the DN will enable the DCs to work not only in natural product research but also many other data-intensive areas of biotechnology.
These multidisciplinary skills and qualifications will be acquired while achieving the scientific goals of the program, namely understanding and developing the complex biosynthesis and production of microbial NPs for cross-sector applications such as medicine, food, agriculture, or biotechnology. Specifically, the Doctoral Candidates (DCs) will work in three areas: (i) develop novel computational tools and algorithms to improve the identification and prediction quality of biosynthetic gene clusters encoding NP biosynthesis in genomic data. This genome-centred approach is complemented by (ii) the use cheminformatics approaches to link metabolomics data of NPs with the genomic data of the producers, which will greatly improve the compound discovery and dereplication process. These two data-centric approaches will finally (iii) converge into experimental applications that discover and characterize novel NPs with promising bioactivities (e.g., antibiotics, pre-/probiotics, agrichemicals, bio-pigments).
The scientific training program is complemented by a comprehensive transferable skill training that will equip the DCs for todays’ demands of a successful career in industry and academia. The skills obtained in the DN will enable the DCs to work not only in natural product research but also many other data-intensive areas of biotechnology.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101072485 |
| Start date: | 01-01-2023 |
| End date: | 31-12-2026 |
| Total budget - Public funding: | - 2 747 131,00 Euro |
Cordis data
Original description
The MAGIC-MOLFUN doctorial network (DN) will train the next generation of specialists for transforming natural products research. They will be educated in a combination of wet-lab and computational skills to integrate genome mining and metabolomics with cutting-edge pathway discovery- and engineering approaches. There is a fast-growing demand for these combination of skills, but these are rarely taught in current integrated training programs.These multidisciplinary skills and qualifications will be acquired while achieving the scientific goals of the program, namely understanding and developing the complex biosynthesis and production of microbial NPs for cross-sector applications such as medicine, food, agriculture, or biotechnology. Specifically, the Doctoral Candidates (DCs) will work in three areas: (i) develop novel computational tools and algorithms to improve the identification and prediction quality of biosynthetic gene clusters encoding NP biosynthesis in genomic data. This genome-centred approach is complemented by (ii) the use cheminformatics approaches to link metabolomics data of NPs with the genomic data of the producers, which will greatly improve the compound discovery and dereplication process. These two data-centric approaches will finally (iii) converge into experimental applications that discover and characterize novel NPs with promising bioactivities (e.g., antibiotics, pre-/probiotics, agrichemicals, bio-pigments).
The scientific training program is complemented by a comprehensive transferable skill training that will equip the DCs for todays’ demands of a successful career in industry and academia. The skills obtained in the DN will enable the DCs to work not only in natural product research but also many other data-intensive areas of biotechnology.
Status
SIGNEDCall topic
HORIZON-MSCA-2021-DN-01-01Update Date
09-02-2023
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Geographical location(s)
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Organisations
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| DANMARKS TEKNISKE UNIVERSITET (Coördinator)
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| C-LECTA GMBH
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| CHROMOLOGICS APS
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| Corteva Agriscience LLC, USA
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| EBERHARD KARLS UNIVERSITAET TUEBINGEN (EKUT)
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| FUNDACION CENTRO DE EXCELENCIA EN INVESTIGACION DE MEDICAMENTOS INNOVADORES EN ANDALUCIA
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| Hexagon Bio, Inc.
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| NAICONS SRL
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| UNIVERSIDAD DE GRANADA (UGR)
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| UNIVERSITA DEGLI STUDI DI MILANO
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| UNIVERSITY OF STRATHCLYDE
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| WAGENINGEN UNIVERSITY