A potent peptide emulsifier from potato storage proteins and its natural isoforms: Insight into the structure/function relationship of amphipathic, α-helical peptide emulsifiers, their targeted release, and applicability.

Simon Gregersen Echers*, Pedro Jesús García Moreno, Betül Yesiltas, Ali Jafarpour, Mads Bjørlie, Egon Bech Hansen, Paolo Marcatili, Charlotte Jacobsen, Nykola C Jones, Søren Vrønning Hoffmann, Reinhard Wimmer, Michael Toft Overgaard

*Kontaktforfatter

Publikation: Konferencebidrag uden forlag/tidsskriftKonferenceabstrakt til konferenceForskningpeer review

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Abstract

Peptide emulsifiers derived from plant proteins are gathering growing interest as green and sustainable replacements for chemical additives in food. Potato (Solanum tuberosum) is one of the most important crops for both human consumption and industrial processing. Globally, the annual production of potato starch exceeds 3,000,000 MT with more than 200,000 MT of potato protein isolated as a side-stream, providing an enormous source of raw protein. The direct isolation of food-grade protein is in many cases regarded as cost-ineffective. Nevertheless, potato proteins may be a valuable source of functional peptides.
Previously, we demonstrated amphiphilicity-based bioinformatic prediction of peptide emulsifiers embedded in potato proteins1,2. Amongst the predicted peptides, especially one (γ1), derived from the storage protein patatin, showed exceptional emulsifying activity in vitro. Although patatin is the most abundant protein in potatoes, it is not a single protein, but a family of highly homologous isoforms.
Using bottom-up proteomics in combination with multiple sequence alignment and in silico digestion, we identified several γ1 variants. The variants consist of both full-length isoforms with single amino acid substitutions and tryptic variants/truncations from different patatin isoforms. The emulsifying activity of the γ1 variants, physical stability of the emulsions during storage, and interfacial properties were investigated3. Furthermore, the interfacial conformation of the peptides was investigated by SRCD and supplemented by NMR and benchtop CD for selected peptides in micellar model systems.
Based on these results, we are able to i) evaluate the full potential of using γ1 variants as peptide emulsifiers in food; ii) provide novel insight on the structure/function relationship of amphipathic, α-helical peptide emulsifiers; iii) combine in vitro functional validation with in silico proteolysis to design a scalable and targeted enzymatic hydrolysis, resulting in a hydrolysate with improved emulsifying properties; and iv) apply the hydrolysates as stabilizers for encapsulation of fish oil for foods.
OriginalsprogEngelsk
Publikationsdato11 apr. 2022
StatusUdgivet - 11 apr. 2022
Begivenhed18th Food Colloids Conference: Structure, dynamics and function - Online, Lund, Sverige
Varighed: 11 apr. 202213 apr. 2022

Konference

Konference18th Food Colloids Conference
LokationOnline
Land/OmrådeSverige
ByLund
Periode11/04/202213/04/2022

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