SubsidieMeestersExploring the Holobiont concept through a Plant Evolutionary Experiment study
HoloE2Plant aims to validate the holobiont concept by studying the co-evolution of Brassica rapa and its microbiome using experimental evolution and high-throughput sequencing.
Projectdetails
Introduction
The evolutionary processes underlying interactions between hosts and their associated microbes is a black box on which biologists have long attempted to shed light. A limiting factor has been knowledge of the precise molecular events, which are now increasingly possible to elucidate with the advent of next-generation sequencing technologies.
Big Data Revolution
The Big Data era has revolutionized evolutionary studies through sequencing of thousands of genomes, allowing tracing of genomic changes. Coupled with these technologies, experimental evolution transformed evolution from a predictive to a functional science by opening a window on evolutionary changes in real-time.
Current Challenges
The challenge that now awaits evolutionary science is in identifying the trajectories simultaneously driving evolution in hosts and microbes. In this context, HoloE2Plant will validate the holobiont concept by looking at the simultaneous evolution of the host and its microbiome.
Methodology
This will be possible thanks to an experimental coevolution approach applied to fast-cycling Brassica rapa plants and Synthetic Microbial Communities (SynComs). SynComs will be selected from bacterial and fungal collections previously established from wild B. rapa populations.
Project Feasibility
This ambitious project is timely and feasible thanks to the combination of:
- High-throughput sequencing
- Cutting-edge modelling methods for microbial functional network reconstruction
- A novel co-evolutionary quantitative genetic approach that will be developed here.
Experimental Design
Experimental evolution will be carried out in the presence/absence of the fungal pathogen Rhizoctonia solani, and the genetic bases underlying microbial-plant interactions associated with disease resistance will be identified.
Expected Contributions
HoloE2Plant will contribute to validating the holobiont concept and will provide unique methods to identify rapid evolutionary changes in holobionts. These theoretical advances will set the stage for future applied projects aiming at designing microbial consortia with biocontrol properties.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.500.000 |
| Totale projectbegroting | € 1.500.000 |
Tijdlijn
| Startdatum | 1-4-2022 |
| Einddatum | 31-3-2028 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- INSTITUT NATIONAL DE RECHERCHE POUR L'AGRICULTURE, L'ALIMENTATION ET L'ENVIRONNEMENTpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Coevolutionary Consequences of Biodiversity ChangeThis project investigates how climate change alters plant-microbe interactions and coevolutionary dynamics, revealing impacts on biodiversity and ecosystem functioning over 35 years. | ERC Advanced... | € 2.500.000 | 2024 | Details |
Unravelling the molecular evolution of plant-microbiome interactions in drylandsThis project aims to investigate how plant-microbe interactions contribute to drought resistance in Brassicaceae species through eco-evolutionary experiments and genomic analysis. | ERC Starting... | € 1.499.325 | 2023 | Details |
The Microbiota-Root-Shoot Axis in Plant Health and DiseaseMICROBIOSIS aims to explore the interactions between root microbial communities and shoot development in plants to enhance health and stress resistance using innovative techniques. | ERC Consolid... | € 1.999.975 | 2023 | Details |
Mapping vast functional landscapes with single-species resolution: a new approach for precision engineering of microbial consortiaECOPROSPECTOR aims to optimize microbial community composition for enhanced starch hydrolysis using machine learning and evolutionary theories, bridging ecology and biotechnology. | ERC Consolid... | € 1.991.470 | 2023 | Details |
The role of plant microbiota in the evolution of fungal pathogens and their repertoires of secreted proteinsFungalSecrets aims to explore the role of diverse effector proteins in fungal pathogens' manipulation of plant microbiota and host invasion, using bioinformatics and molecular techniques to enhance crop resilience. | ERC Consolid... | € 2.000.000 | 2023 | Details |
Coevolutionary Consequences of Biodiversity Change
This project investigates how climate change alters plant-microbe interactions and coevolutionary dynamics, revealing impacts on biodiversity and ecosystem functioning over 35 years.
Unravelling the molecular evolution of plant-microbiome interactions in drylands
This project aims to investigate how plant-microbe interactions contribute to drought resistance in Brassicaceae species through eco-evolutionary experiments and genomic analysis.
The Microbiota-Root-Shoot Axis in Plant Health and Disease
MICROBIOSIS aims to explore the interactions between root microbial communities and shoot development in plants to enhance health and stress resistance using innovative techniques.
Mapping vast functional landscapes with single-species resolution: a new approach for precision engineering of microbial consortia
ECOPROSPECTOR aims to optimize microbial community composition for enhanced starch hydrolysis using machine learning and evolutionary theories, bridging ecology and biotechnology.
The role of plant microbiota in the evolution of fungal pathogens and their repertoires of secreted proteins
FungalSecrets aims to explore the role of diverse effector proteins in fungal pathogens' manipulation of plant microbiota and host invasion, using bioinformatics and molecular techniques to enhance crop resilience.