Summary
Plants benefit from their microbiome for specific functions such as nutrient uptake, defense and growth. When exposed to environmental stress conditions, plants are able to recruit specific helper microbiota to aid in the recovery from the stress. Understanding mechanisms underlying the interaction between plants and the myriad of microorganisms living in association with them is fundamental to fully harness the genomic potential of these microbes to improve crop agricultural performance. With a metatranscriptomics approach, MetaFun aims at investigating:
1) the microbiome functions involved in chemical communication with the host plant;
2) microbiome functions that become activated in response to recognition of a plant in need and act in co-operation within a community to help the plant to adapt to environmental stress.
The innovative approach of MetaFun is based on the identification of microbial activities that become activated in response to specific biotic/abiotic stresses using a metagenomics and metatranscriptomics approach. Moreover, by combining a powerful experimental design, high resolution RNA-sequencing and advanced computational tools, MetaFun aims to decipher microbe-microbe interactions within the plant-associated microbiomes. The implementation of the MetaFun research project, combined with its training program carried out in an excellent scientific environment, represent a unique opportunity to restart the career of the experienced researcher and become an independent scientist.
1) the microbiome functions involved in chemical communication with the host plant;
2) microbiome functions that become activated in response to recognition of a plant in need and act in co-operation within a community to help the plant to adapt to environmental stress.
The innovative approach of MetaFun is based on the identification of microbial activities that become activated in response to specific biotic/abiotic stresses using a metagenomics and metatranscriptomics approach. Moreover, by combining a powerful experimental design, high resolution RNA-sequencing and advanced computational tools, MetaFun aims to decipher microbe-microbe interactions within the plant-associated microbiomes. The implementation of the MetaFun research project, combined with its training program carried out in an excellent scientific environment, represent a unique opportunity to restart the career of the experienced researcher and become an independent scientist.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/893366 |
| Start date: | 01-09-2020 |
| End date: | 31-08-2023 |
| Total budget - Public funding: | 263 358,72 Euro - 263 358,00 Euro |
Cordis data
Original description
Plants benefit from their microbiome for specific functions such as nutrient uptake, defense and growth. When exposed to environmental stress conditions, plants are able to recruit specific helper microbiota to aid in the recovery from the stress. Understanding mechanisms underlying the interaction between plants and the myriad of microorganisms living in association with them is fundamental to fully harness the genomic potential of these microbes to improve crop agricultural performance. With a metatranscriptomics approach, MetaFun aims at investigating:1) the microbiome functions involved in chemical communication with the host plant;
2) microbiome functions that become activated in response to recognition of a plant in need and act in co-operation within a community to help the plant to adapt to environmental stress.
The innovative approach of MetaFun is based on the identification of microbial activities that become activated in response to specific biotic/abiotic stresses using a metagenomics and metatranscriptomics approach. Moreover, by combining a powerful experimental design, high resolution RNA-sequencing and advanced computational tools, MetaFun aims to decipher microbe-microbe interactions within the plant-associated microbiomes. The implementation of the MetaFun research project, combined with its training program carried out in an excellent scientific environment, represent a unique opportunity to restart the career of the experienced researcher and become an independent scientist.
Status
CLOSEDCall topic
MSCA-IF-2019Update Date
28-04-2024
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