Summary
Incorporating biomolecules as integral parts of computational systems represents a frontier challenge in bio and nanotechnology. Using DNA to store digital data is an attractive alternative to conventional information technologies due to its high information density and long lifetime. However, developing an adequate DNA storage medium remains a significant challenge in permitting the safe archival and retrieval of oligonucleotides.
TextaDNA introduces polymer fibres as a novel approach to encapsulating and retrieving information-carrying oligonucleotides. We will develop a complete DNA storage workflow, encoding digital information into DNA base sequences and optimising oligonucleotide synthesis and encapsulation in polymer nano and microfibres. The project is led by nanoGUNE, a nanotechnology research centre, and partners with Eurofins, a leading European company specialising in state-of-art oligo synthesis and next-generation sequencing. We will design next-generation sequencing assays to automate the DNA digital storage readout retrieved from fibres. The enhanced oligo synthesis and sequencing strategies that, TextaDNA will develop are of fundamental interest in the path toward broader use of DNA digital storage, increasing synthesis speed and length of oligos and reducing costs. The consortium will create the conditions for encapsulating oligonucleotides inside polymer fibres and methods to retrieve them. We will establish efficient methods of synthesising oligonucleotides going beyond state-of-art phosphorodiamidate chemistry while ensuring their stability. Further, TextaDNA will also explore ways of incorporating sequencing technologies into reading digital data stored in oligonucleotide pools and expand the data storage capabilities of DNA.
TextaDNA will add to the European leadership in DNA data digital storage by leveraging oligo synthesis and sequencing with nanotechnology to build DNA digital storage materials.
TextaDNA introduces polymer fibres as a novel approach to encapsulating and retrieving information-carrying oligonucleotides. We will develop a complete DNA storage workflow, encoding digital information into DNA base sequences and optimising oligonucleotide synthesis and encapsulation in polymer nano and microfibres. The project is led by nanoGUNE, a nanotechnology research centre, and partners with Eurofins, a leading European company specialising in state-of-art oligo synthesis and next-generation sequencing. We will design next-generation sequencing assays to automate the DNA digital storage readout retrieved from fibres. The enhanced oligo synthesis and sequencing strategies that, TextaDNA will develop are of fundamental interest in the path toward broader use of DNA digital storage, increasing synthesis speed and length of oligos and reducing costs. The consortium will create the conditions for encapsulating oligonucleotides inside polymer fibres and methods to retrieve them. We will establish efficient methods of synthesising oligonucleotides going beyond state-of-art phosphorodiamidate chemistry while ensuring their stability. Further, TextaDNA will also explore ways of incorporating sequencing technologies into reading digital data stored in oligonucleotide pools and expand the data storage capabilities of DNA.
TextaDNA will add to the European leadership in DNA data digital storage by leveraging oligo synthesis and sequencing with nanotechnology to build DNA digital storage materials.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101115292 |
| Start date: | 01-02-2024 |
| End date: | 31-01-2028 |
| Total budget - Public funding: | 2 509 125,00 Euro - 2 509 125,00 Euro |
Cordis data
Original description
Incorporating biomolecules as integral parts of computational systems represents a frontier challenge in bio and nanotechnology. Using DNA to store digital data is an attractive alternative to conventional information technologies due to its high information density and long lifetime. However, developing an adequate DNA storage medium remains a significant challenge in permitting the safe archival and retrieval of oligonucleotides.TextaDNA introduces polymer fibres as a novel approach to encapsulating and retrieving information-carrying oligonucleotides. We will develop a complete DNA storage workflow, encoding digital information into DNA base sequences and optimising oligonucleotide synthesis and encapsulation in polymer nano and microfibres. The project is led by nanoGUNE, a nanotechnology research centre, and partners with Eurofins, a leading European company specialising in state-of-art oligo synthesis and next-generation sequencing. We will design next-generation sequencing assays to automate the DNA digital storage readout retrieved from fibres. The enhanced oligo synthesis and sequencing strategies that, TextaDNA will develop are of fundamental interest in the path toward broader use of DNA digital storage, increasing synthesis speed and length of oligos and reducing costs. The consortium will create the conditions for encapsulating oligonucleotides inside polymer fibres and methods to retrieve them. We will establish efficient methods of synthesising oligonucleotides going beyond state-of-art phosphorodiamidate chemistry while ensuring their stability. Further, TextaDNA will also explore ways of incorporating sequencing technologies into reading digital data stored in oligonucleotide pools and expand the data storage capabilities of DNA.
TextaDNA will add to the European leadership in DNA data digital storage by leveraging oligo synthesis and sequencing with nanotechnology to build DNA digital storage materials.
Status
SIGNEDCall topic
HORIZON-EIC-2022-PATHFINDERCHALLENGES-01-05Update Date
12-03-2024
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