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Chloroplast thylakoid membrane-stabilised emulsions.

Rayner, Marilyn LU orcid ; Ljusberg, Helena LU ; Emek, Sinan C LU ; Sellman, Emilie ; Erlanson-Albertsson, Charlotte LU and Albertsson, Per-Åke LU (2011) In Journal of the Science of Food and Agriculture 91(2). p.315-321
Abstract

BACKGROUND: Thylakoid-stabilised emulsions have been reported to possess satiety-promoting effects and inhibit pancreatic lipase-colipase activity in vitro, which prompted the investigation of their interfacial properties.

RESULTS: Thylakoid membranes isolated from spinach were used as an emulsifier/stabiliser in oil (triglyceride)-in-water emulsions. Emulsions were characterised with respect to droplet size, interfacial tension, creaming, surface load and electron microscopy. The effects of pH and thylakoid concentration were also considered. Droplet size decreased with increasing thylakoid concentration, reaching a plateau around 15 microm beyond concentrations of 2 mg protein mL(-1) oil. The resulting emulsions were stable... (More)

BACKGROUND: Thylakoid-stabilised emulsions have been reported to possess satiety-promoting effects and inhibit pancreatic lipase-colipase activity in vitro, which prompted the investigation of their interfacial properties.

RESULTS: Thylakoid membranes isolated from spinach were used as an emulsifier/stabiliser in oil (triglyceride)-in-water emulsions. Emulsions were characterised with respect to droplet size, interfacial tension, creaming, surface load and electron microscopy. The effects of pH and thylakoid concentration were also considered. Droplet size decreased with increasing thylakoid concentration, reaching a plateau around 15 microm beyond concentrations of 2 mg protein mL(-1) oil. The resulting emulsions were stable against coalescence but were subject to creaming. The surface pressure (air/water interface) of the thylakoid isolate was 44 mN m(-1) and the surface load 13 mg m(-2) at 10 mg protein mL(-1) oil. Electron micrographs showed thylakoids adsorbed as bunched vesicles on the drop surfaces. The stabilisation mechanism can be described as a combined effect of surface-active molecules, mainly membrane proteins but also membrane lipids, exposed on surfaces of thylakoid membrane vesicles adsorbed as particles.

CONCLUSION: Thylakoid membranes effectively stabilise oil-in-water emulsions, which should facilitate their incorporation in food with satiety-promoting effects. To the authors' knowledge, this is the first study on the emulsifying properties of an isolated biological membrane as a functional ingredient.

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author
; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Adsorption, Emulsifying Agents, Emulsions, Food Technology, Membrane Lipids, Membrane Proteins, Spinacia oleracea, Surface Properties, Surface Tension, Thylakoids, Triglycerides, Water
in
Journal of the Science of Food and Agriculture
volume
91
issue
2
pages
7 pages
publisher
Wiley-Blackwell
external identifiers
  • wos:000285481300018
  • pmid:20960431
  • scopus:78650215018
  • pmid:20960431
ISSN
1097-0010
DOI
10.1002/jsfa.4187
language
English
LU publication?
yes
id
7d190a55-321a-4125-ad91-fe6281451745 (old id 1710958)
date added to LUP
2016-04-04 09:29:26
date last changed
2024-10-13 02:20:36
@article{7d190a55-321a-4125-ad91-fe6281451745,
  abstract     = {{<p>BACKGROUND: Thylakoid-stabilised emulsions have been reported to possess satiety-promoting effects and inhibit pancreatic lipase-colipase activity in vitro, which prompted the investigation of their interfacial properties.</p><p>RESULTS: Thylakoid membranes isolated from spinach were used as an emulsifier/stabiliser in oil (triglyceride)-in-water emulsions. Emulsions were characterised with respect to droplet size, interfacial tension, creaming, surface load and electron microscopy. The effects of pH and thylakoid concentration were also considered. Droplet size decreased with increasing thylakoid concentration, reaching a plateau around 15 microm beyond concentrations of 2 mg protein mL(-1) oil. The resulting emulsions were stable against coalescence but were subject to creaming. The surface pressure (air/water interface) of the thylakoid isolate was 44 mN m(-1) and the surface load 13 mg m(-2) at 10 mg protein mL(-1) oil. Electron micrographs showed thylakoids adsorbed as bunched vesicles on the drop surfaces. The stabilisation mechanism can be described as a combined effect of surface-active molecules, mainly membrane proteins but also membrane lipids, exposed on surfaces of thylakoid membrane vesicles adsorbed as particles.</p><p>CONCLUSION: Thylakoid membranes effectively stabilise oil-in-water emulsions, which should facilitate their incorporation in food with satiety-promoting effects. To the authors' knowledge, this is the first study on the emulsifying properties of an isolated biological membrane as a functional ingredient.</p>}},
  author       = {{Rayner, Marilyn and Ljusberg, Helena and Emek, Sinan C and Sellman, Emilie and Erlanson-Albertsson, Charlotte and Albertsson, Per-Åke}},
  issn         = {{1097-0010}},
  keywords     = {{Adsorption; Emulsifying Agents; Emulsions; Food Technology; Membrane Lipids; Membrane Proteins; Spinacia oleracea; Surface Properties; Surface Tension; Thylakoids; Triglycerides; Water}},
  language     = {{eng}},
  number       = {{2}},
  pages        = {{315--321}},
  publisher    = {{Wiley-Blackwell}},
  series       = {{Journal of the Science of Food and Agriculture}},
  title        = {{Chloroplast thylakoid membrane-stabilised emulsions.}},
  url          = {{http://dx.doi.org/10.1002/jsfa.4187}},
  doi          = {{10.1002/jsfa.4187}},
  volume       = {{91}},
  year         = {{2011}},
}