SubsidieMeestersDevelopment of rationally designed enzyme kits
KITZYME aims to create patentable enzyme kits for stereoselective carbon-carbon bond formation using advanced computational methods to enhance catalytic efficiency sustainably and cost-effectively.
Projectdetails
Introduction
Enzymes exhibit high efficiency, specificity, selectivity, biodegradability, non-toxicity, and the ability to function effectively under gentle biological conditions. These qualities render enzymes a sustainable and eco-friendly substitute for traditional catalysts within industrial settings.
Challenges in Industrial Applications
However, harnessing enzymes for industrial applications often necessitates extensive and costly experimental engineering efforts. Computational methods hold promise as potential solutions, but these have not yet demonstrated the ability to rapidly design highly efficient enzymes that mimic those found in Nature.
Our Computational Approach
As opposed to other methods, our computational approach developed in the previous ERC-STG can introduce active site and distal mutations that modulate the enzyme conformational dynamics. This approach achieves increases in catalytic efficiency of up to 1000-fold.
Project Objectives
This project aims to exploit the proprietary technology developed in ERC-STG and ERC-POC for generating a set of patentable rationally designed enzyme kits focused on stereoselective carbon-carbon bond formation.
Spin-off Creation
KITZYME aims to create a spin-off for the exploitation of the new set of rationally designed enzyme kits as well as the proprietary technology developed for enzyme optimization.
Conclusion
Both the enzyme kits and our technology are the cornerstone of the project, and will provide industries with a cost-effective, scalable, and environmentally sustainable solution.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-7-2024 |
| Einddatum | 31-12-2025 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- UNIVERSITAT DE GIRONApenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
MANUNKIND: Determinants and Dynamics of Collaborative ExploitationThis project aims to develop a game theoretic framework to analyze the psychological and strategic dynamics of collaborative exploitation, informing policies to combat modern slavery. | ERC STG | € 1.497.749 | 2022 | Details |
Elucidating the phenotypic convergence of proliferation reduction under growth-induced pressureThe UnderPressure project aims to investigate how mechanical constraints from 3D crowding affect cell proliferation and signaling in various organisms, with potential applications in reducing cancer chemoresistance. | ERC STG | € 1.498.280 | 2022 | Details |
Uncovering the mechanisms of action of an antiviral bacteriumThis project aims to uncover the mechanisms behind Wolbachia's antiviral protection in insects and develop tools for studying symbiont gene function. | ERC STG | € 1.500.000 | 2023 | Details |
The Ethics of Loneliness and SociabilityThis project aims to develop a normative theory of loneliness by analyzing ethical responsibilities of individuals and societies to prevent and alleviate loneliness, establishing a new philosophical sub-field. | ERC STG | € 1.025.860 | 2023 | Details |
MANUNKIND: Determinants and Dynamics of Collaborative Exploitation
This project aims to develop a game theoretic framework to analyze the psychological and strategic dynamics of collaborative exploitation, informing policies to combat modern slavery.
Elucidating the phenotypic convergence of proliferation reduction under growth-induced pressure
The UnderPressure project aims to investigate how mechanical constraints from 3D crowding affect cell proliferation and signaling in various organisms, with potential applications in reducing cancer chemoresistance.
Uncovering the mechanisms of action of an antiviral bacterium
This project aims to uncover the mechanisms behind Wolbachia's antiviral protection in insects and develop tools for studying symbiont gene function.
The Ethics of Loneliness and Sociability
This project aims to develop a normative theory of loneliness by analyzing ethical responsibilities of individuals and societies to prevent and alleviate loneliness, establishing a new philosophical sub-field.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Electrifying Peptide Synthesis for Directed Evolution of Artificial EnzymesThis project aims to develop robust artificial enzymes through directed evolution with artificial amino acids, enhancing energy conversion efficiency for renewable energy applications. | ERC COG | € 1.997.993 | 2022 | Details |
Fast yet accurate routine rational design of novel enzymesFASTEN aims to develop a rapid computational method for designing efficient enzymes, enhancing industrial enzyme catalysis and sustainability through advanced computational techniques. | ERC COG | € 1.996.250 | 2023 | Details |
Enzymatic chemistry acting on alkyl chainsThe project aims to discover and characterize novel biocatalysts from cyanobacteria to enable selective functionalization of alkyl chains for sustainable production of organic chemicals. | ERC COG | € 1.995.621 | 2024 | Details |
Continuous Enzyme Evolution – solving bottlenecks in enzyme engineering to design next-generation biocatalystsThe ContiZymes project aims to develop a scalable continuous evolution platform for rapidly engineering valuable biocatalysts, enhancing enzyme efficiency and mapping their functional properties. | ERC COG | € 1.999.991 | 2024 | Details |
Electrifying Peptide Synthesis for Directed Evolution of Artificial Enzymes
This project aims to develop robust artificial enzymes through directed evolution with artificial amino acids, enhancing energy conversion efficiency for renewable energy applications.
Fast yet accurate routine rational design of novel enzymes
FASTEN aims to develop a rapid computational method for designing efficient enzymes, enhancing industrial enzyme catalysis and sustainability through advanced computational techniques.
Enzymatic chemistry acting on alkyl chains
The project aims to discover and characterize novel biocatalysts from cyanobacteria to enable selective functionalization of alkyl chains for sustainable production of organic chemicals.
Continuous Enzyme Evolution – solving bottlenecks in enzyme engineering to design next-generation biocatalysts
The ContiZymes project aims to develop a scalable continuous evolution platform for rapidly engineering valuable biocatalysts, enhancing enzyme efficiency and mapping their functional properties.