Development 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.

Subsidie

€ 150.000

2024

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 Goals

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)

Spain

Vergelijkbare projecten binnen European Research Council

Project	Regeling	Bedrag	Jaar	Actie
Computational design of industrial enzymes for green chemistry GREENZYME aims to revolutionize enzyme design using deep learning and computational methods to create efficient, eco-friendly catalysts, reducing drug production costs and promoting green chemistry.	ERC Proof of...	€ 150.000	2023	Details
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.	ERC Consolid...	€ 1.996.250	2023	Details
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.	ERC Consolid...	€ 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.	ERC Consolid...	€ 1.997.993	2022	Details
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.	ERC Consolid...	€ 1.995.621	2024	Details

ERC Proof of...

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FASTEN aims to develop a rapid computational method for designing efficient enzymes, enhancing industrial enzyme catalysis and sustainability through advanced computational techniques.

ERC Consolidator Grant

€ 1.996.250

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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.

ERC Consolidator Grant

€ 1.999.991

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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.

ERC Consolidator Grant

€ 1.997.993

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ERC Consolid...

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.

ERC Consolidator Grant

€ 1.995.621

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Details

Vergelijkbare projecten uit andere regelingen

Project	Regeling	Bedrag	Jaar	Actie
TUNGSTEN BIOCATALYSIS – HEAVY METAL ENZYMES FOR SUSTAINABLE INDUSTRIAL BIOCATALYSIS This project aims to develop a new W-cofactor biosynthesis pathway in E. coli to produce tungsten-containing enzymes for sustainable chemical processes, enabling efficient CO2 reduction and cosmetic ingredient production.	EIC Pathfinder	€ 2.430.574	2024	Details
Haalbaarheid Hernieuwbare enzymdragers voor geintensiveerde industriele processen Viazym B.V. ontwikkelt een duurzaam immobilisatieproces voor enzymen met hernieuwbare grondstoffen, gericht op het verbeteren van de efficiëntie en duurzaamheid in de procesindustrie.	Mkb-innovati...	€ 20.000	2021	Details

EIC Pathfinder

TUNGSTEN BIOCATALYSIS – HEAVY METAL ENZYMES FOR SUSTAINABLE INDUSTRIAL BIOCATALYSIS

This project aims to develop a new W-cofactor biosynthesis pathway in E. coli to produce tungsten-containing enzymes for sustainable chemical processes, enabling efficient CO2 reduction and cosmetic ingredient production.

EIC Pathfinder

€ 2.430.574

2024

Details

Mkb-innovati...

Haalbaarheid Hernieuwbare enzymdragers voor geintensiveerde industriele processen

Viazym B.V. ontwikkelt een duurzaam immobilisatieproces voor enzymen met hernieuwbare grondstoffen, gericht op het verbeteren van de efficiëntie en duurzaamheid in de procesindustrie.

Mkb-innovatiestimulering Topsectoren Haalbaarheid

€ 20.000

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Details

Projectdetails

Introduction

Challenges in Industrial Applications

Our Computational Approach

Project Goals

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.

Vergelijkbare projecten binnen European Research Council

Project	Regeling	Bedrag	Jaar	Actie
Computational design of industrial enzymes for green chemistry GREENZYME aims to revolutionize enzyme design using deep learning and computational methods to create efficient, eco-friendly catalysts, reducing drug production costs and promoting green chemistry.	ERC Proof of...	€ 150.000	2023	Details
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.	ERC Consolid...	€ 1.996.250	2023	Details
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.	ERC Consolid...	€ 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.	ERC Consolid...	€ 1.997.993	2022	Details
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.	ERC Consolid...	€ 1.995.621	2024	Details

ERC Proof of...

Computational design of industrial enzymes for green chemistry

GREENZYME aims to revolutionize enzyme design using deep learning and computational methods to create efficient, eco-friendly catalysts, reducing drug production costs and promoting green chemistry.

ERC Proof of Concept

€ 150.000

2023

Details

ERC Consolid...

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.

ERC Consolidator Grant

€ 1.996.250

2023

Details

ERC Consolid...

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.

ERC Consolidator Grant

€ 1.999.991

2024

Details

ERC Consolid...

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.

ERC Consolidator Grant

€ 1.997.993

2022

Details

ERC Consolid...

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.

ERC Consolidator Grant

€ 1.995.621

2024

Details

Vergelijkbare projecten uit andere regelingen

Project	Regeling	Bedrag	Jaar	Actie
TUNGSTEN BIOCATALYSIS – HEAVY METAL ENZYMES FOR SUSTAINABLE INDUSTRIAL BIOCATALYSIS This project aims to develop a new W-cofactor biosynthesis pathway in E. coli to produce tungsten-containing enzymes for sustainable chemical processes, enabling efficient CO2 reduction and cosmetic ingredient production.	EIC Pathfinder	€ 2.430.574	2024	Details
Haalbaarheid Hernieuwbare enzymdragers voor geintensiveerde industriele processen Viazym B.V. ontwikkelt een duurzaam immobilisatieproces voor enzymen met hernieuwbare grondstoffen, gericht op het verbeteren van de efficiëntie en duurzaamheid in de procesindustrie.	Mkb-innovati...	€ 20.000	2021	Details

EIC Pathfinder

TUNGSTEN BIOCATALYSIS – HEAVY METAL ENZYMES FOR SUSTAINABLE INDUSTRIAL BIOCATALYSIS

EIC Pathfinder

€ 2.430.574

2024

Details

Mkb-innovati...

Haalbaarheid Hernieuwbare enzymdragers voor geintensiveerde industriele processen

Viazym B.V. ontwikkelt een duurzaam immobilisatieproces voor enzymen met hernieuwbare grondstoffen, gericht op het verbeteren van de efficiëntie en duurzaamheid in de procesindustrie.

Mkb-innovatiestimulering Topsectoren Haalbaarheid

€ 20.000

2021

Details