SubsidieMeestersIn planta jet injection: Efficient genetic engineering of resilient crops
The project aims to develop affordable, high-throughput devices for efficient genome editing in crops to enhance yield and climate resilience, addressing global food security challenges by 2100.
Projectdetails
Introduction
Feeding 11 billion people by 2100 in a changing climate is a global challenge. Without further innovation, predicted crop yield will decrease due to climate change effects. Moreover, the number of biotic threats is increasing with pathogen pressure and infection risk showing temperature-dependency as well. Thus, crop breeding must be invigorated to generate plants with higher yield, and climate change resilience needs to be urgently met.
Genome Editing Potential
Genome editing has the potential to assist classical breeding. Breeding based on gene editing enables faster production of crops with improved traits such as:
- Drought tolerance
- Disease resistance
- Increased yield
Established delivery methods for in planta crop transformation are labor-intensive, cannot be applied to any crop species, and have low transformation efficiencies, often below 1%.
Challenges in Delivery
Delivering genome-editing cargo efficiently and cost-competitively in vivo, through the hard plant cell wall, is an unmet challenge.
Our Approach
With our approach, we aim to generate affordable, high-throughput devices that enable fast and efficient transformation of crops. Thus, our scalable approach is compatible with mass production.
Market Impact
This, in turn, will open the market for transgenic plants for newcomers, leading to more innovation and competition that will drive food costs for consumers and provide varied products.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-9-2023 |
| Einddatum | 31-8-2025 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- UNIVERSITEIT TWENTEpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Next-generation multi-targeted CRISPR genetic toolbox uncovers hidden breeding traitsMulti-Crop technology utilizes genome-scale multi-targeted CRISPR libraries to uncover hidden genetic traits in crops, revolutionizing plant breeding for enhanced resilience and productivity. | ERC Proof of... | € 150.000 | 2023 | Details |
Plant mitochondrial genome engineering: technology development and application to study fundamental aspects of mitochondrial gene expressionPlaMitEng aims to enable genetic engineering of plant mitochondrial genomes through novel editing and transformation technologies, unlocking new research and biotechnology opportunities. | ERC Advanced... | € 2.500.000 | 2024 | Details |
A precise and versatile nanotechnology with seed bio-stimulant microbial molecules to potentiate crop growth and immunizationThis project aims to enhance seed resilience and growth using fengycin and nanotechnology, reducing fertilizer and pesticide use while promoting sustainable crop production. | ERC Proof of... | € 150.000 | 2023 | Details |
AdaptiveTarget: Accessing haplotype variation at complex loci with optimized targeting and adaptive samplingDeveloping AdaptiveTarget, a bioinformatic method for efficient long-read sequencing of complex genomic regions, to enhance crop disease resistance and improve precision breeding. | ERC Proof of... | € 150.000 | 2024 | Details |
Defusing mini-chromosomes—the Achilles’ heel of the wheat blast pandemicThe PANDEMIC project aims to develop non-transgenic wheat disease resistance by targeting a unique mini-chromosome in the virulent wheat blast fungus using gene editing and biophysical analysis. | ERC Starting... | € 1.499.999 | 2023 | Details |
Next-generation multi-targeted CRISPR genetic toolbox uncovers hidden breeding traits
Multi-Crop technology utilizes genome-scale multi-targeted CRISPR libraries to uncover hidden genetic traits in crops, revolutionizing plant breeding for enhanced resilience and productivity.
Plant mitochondrial genome engineering: technology development and application to study fundamental aspects of mitochondrial gene expression
PlaMitEng aims to enable genetic engineering of plant mitochondrial genomes through novel editing and transformation technologies, unlocking new research and biotechnology opportunities.
A precise and versatile nanotechnology with seed bio-stimulant microbial molecules to potentiate crop growth and immunization
This project aims to enhance seed resilience and growth using fengycin and nanotechnology, reducing fertilizer and pesticide use while promoting sustainable crop production.
AdaptiveTarget: Accessing haplotype variation at complex loci with optimized targeting and adaptive sampling
Developing AdaptiveTarget, a bioinformatic method for efficient long-read sequencing of complex genomic regions, to enhance crop disease resistance and improve precision breeding.
Defusing mini-chromosomes—the Achilles’ heel of the wheat blast pandemic
The PANDEMIC project aims to develop non-transgenic wheat disease resistance by targeting a unique mini-chromosome in the virulent wheat blast fungus using gene editing and biophysical analysis.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
3P-Tec - Three-parent breeding technology for plants of the futureThe project aims to develop a revolutionary three-parent breeding technology (3P-Tec) to create climate-resilient crops, enhancing yields and accelerating the commercialization of improved seed varieties. | EIC Transition | € 2.498.828 | 2022 | Details |
TRansition to agriculture 4.0: increasing crop resiliency with Artificial Intelligence TechnologyComputomics aims to revolutionize plant breeding for climate resilience and resource efficiency using its xSeedScore technology, targeting €18M turnover and 50 employees by 2026. | EIC Accelerator | € 2.447.812 | 2023 | Details |
Resilient and environmentally sustainable engineered crops to address climate changeCrop4Clima aims to develop canola and rapeseed lines that enhance CO2 assimilation and resilience, improving productivity and sustainability to meet future agricultural demands amid climate change. | EIC Transition | € 2.475.562 | 2023 | Details |
New Prime Editing and non-viral delivery strategies for Gene TherapyThis project aims to develop non-viral delivery systems and novel prime editors to enhance gene editing efficiency and safety for treating Sickle Cell Disease and other genetic disorders. | EIC Pathfinder | € 4.406.097 | 2022 | Details |
Green Building MaterialsHet project ontwikkelt een nieuwe methode voor plantenveredeling door autonome drones in te zetten voor snelle en betrouwbare dataverzameling en analyse, wat leidt tot efficiëntere en kosteneffectieve processen. | Mkb-innovati... | € 195.300 | 2017 | Details |
3P-Tec - Three-parent breeding technology for plants of the future
The project aims to develop a revolutionary three-parent breeding technology (3P-Tec) to create climate-resilient crops, enhancing yields and accelerating the commercialization of improved seed varieties.
TRansition to agriculture 4.0: increasing crop resiliency with Artificial Intelligence Technology
Computomics aims to revolutionize plant breeding for climate resilience and resource efficiency using its xSeedScore technology, targeting €18M turnover and 50 employees by 2026.
Resilient and environmentally sustainable engineered crops to address climate change
Crop4Clima aims to develop canola and rapeseed lines that enhance CO2 assimilation and resilience, improving productivity and sustainability to meet future agricultural demands amid climate change.
New Prime Editing and non-viral delivery strategies for Gene Therapy
This project aims to develop non-viral delivery systems and novel prime editors to enhance gene editing efficiency and safety for treating Sickle Cell Disease and other genetic disorders.
Green Building Materials
Het project ontwikkelt een nieuwe methode voor plantenveredeling door autonome drones in te zetten voor snelle en betrouwbare dataverzameling en analyse, wat leidt tot efficiëntere en kosteneffectieve processen.