Efficient chemical hydrophobization of lactic acid bacteria – One-step formation of double emulsion

[Display omitted] •The hydrophobicity of bacteria was altered by lauroyl chloride modification.•The improved cell hydrophobicity remained stable over long-time storage.•W/O/W double emulsion wascreated via a one-step procedure using modified bacteria.•Long-term stability of emulsion was achieved by...

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Veröffentlicht in:Food research international 2021-09, Vol.147, p.110460-110460, Article 110460
Hauptverfasser: Jiang, Xiaoyi, Shekarforoush, Elhamalsadat, Muhammed, Musemma Kedir, Whitehead, Kathryn, Simonsen, Adam Cohen, Arneborg, Nils, Risbo, Jens
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Sprache:eng
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Zusammenfassung:[Display omitted] •The hydrophobicity of bacteria was altered by lauroyl chloride modification.•The improved cell hydrophobicity remained stable over long-time storage.•W/O/W double emulsion wascreated via a one-step procedure using modified bacteria.•Long-term stability of emulsion was achieved by bacterial adsorption on interfaces. A novel concept of stabilizing multiple-phase food structure such as emulsion using solely the constitutional bacteria enables an all-natural food grade formulation and thus a clean label declaration. In this paper, we propose an efficient approach to hydrophobically modifying the surface of lactic acid bacteria Lactobacillus rhamnosus (LGG) using lauroyl ahloride (LC) in non-aqueous media. Compared to the unmodified bacteria, cell hydrophobicity was dramatically altered upon modification, according to the higher percentages of microbial adhesion to hexadecane (MATH) and water contact angles (WCA) of LC-modified bacteria. No evident changes were found in bacterial surface charge before and after LC modification. By using one-step homogenization, all the modified bacteria were able to generate stabile water-in-oil-in-water (W/O/W) double emulsions where bacteria were observed on oil–water interfaces of the primary and secondary droplets. Modification using high LC concentrations (10 and 20 w/w%) led to rapid autoaggregation of bacteria in aqueous solution. A long-term lethal effect of modification primarily came from lyophilization and no apparent impact was detected on the instantaneous culturability of modified bacteria.
ISSN:0963-9969
1873-7145
DOI:10.1016/j.foodres.2021.110460