Summary
The AlgaeNet4AV project seeks to exploit the microalgae biodiversity, as a source for high-added-value lectins and polyphenols with antiviral properties against influenza and coronavirus pandemic strains. Microalgae derived-compounds are easily amendable, bio-degradable, non-toxic and safe; thus, they are preferred to be used for the development of novel bio-based materials and cosmetics with antiviral potential. Lectins and polyphenols could be highly demanded non-drug interventions across the materials and cosmetics industry as a solution to reduce the risk and speed of contamination and transmission during pandemic outbreaks. The project will combine the whole value chain in order to: a) develop transcriptomics and metabolomics resources from microalgae diversity as a valuable source for the discovery novel lectins and polyphenols; b) characterize their spectrum of bioactivity and toxicity and provide structure-function relationships; c) develop and optimize application-based microalgae culture systems and downstream processing strategies for higher production rate of the desired compounds; d) develop, formulate and evaluate lectins and polyphenols-based final cosmetics products. The work will be supported by market assessment, integral biorefinery designs, techno-economic and sustainability assessment. Integrated value chains will be demonstrated to deliver proof-of-concept and demonstrate economic feasibility. AlgaeNet4AV is an industry-academia R&D and innovation project with a multidisciplinary approach aimed at generating robust business cases through technology development. The consortium composed by 11 partners, with 7 European and 2 third-country (USA & Japan) prominent research organisations. Strong industrial leadership is guaranteed through the participation of 5 SMEs. The projects goals will be achieved through a sustainable way helping meet the increasing demand while creating a positive environmental impact through reduction of carbon emissions.
Unfold all
/
Fold all
More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101086437 |
Start date: | 01-01-2023 |
End date: | 31-12-2026 |
Total budget - Public funding: | - 772 800,00 Euro |
Cordis data
Original description
The AlgaeNet4AV project seeks to exploit the microalgae biodiversity, as a source for high-added-value lectins and polyphenols with antiviral properties against influenza and coronavirus pandemic strains. Microalgae derived-compounds are easily amendable, bio-degradable, non-toxic and safe; thus, they are preferred to be used for the development of novel bio-based materials and cosmetics with antiviral potential. Lectins and polyphenols could be highly demanded non-drug interventions across the materials and cosmetics industry as a solution to reduce the risk and speed of contamination and transmission during pandemic outbreaks. The project will combine the whole value chain in order to: a) develop transcriptomics and metabolomics resources from microalgae diversity as a valuable source for the discovery novel lectins and polyphenols; b) characterize their spectrum of bioactivity and toxicity and provide structure-function relationships; c) develop and optimize application-based microalgae culture systems and downstream processing strategies for higher production rate of the desired compounds; d) develop, formulate and evaluate lectins and polyphenols-based final cosmetics products. The work will be supported by market assessment, integral biorefinery designs, techno-economic and sustainability assessment. Integrated value chains will be demonstrated to deliver proof-of-concept and demonstrate economic feasibility. AlgaeNet4AV is an industry-academia R&D and innovation project with a multidisciplinary approach aimed at generating robust business cases through technology development. The consortium composed by 11 partners, with 7 European and 2 third-country (USA & Japan) prominent research organisations. Strong industrial leadership is guaranteed through the participation of 5 SMEs. The projects goals will be achieved through a sustainable way helping meet the increasing demand while creating a positive environmental impact through reduction of carbon emissions.Status
SIGNEDCall topic
HORIZON-MSCA-2021-SE-01-01Update Date
09-02-2023
Images
No images available.
Geographical location(s)