Issue 5, 2018

Microrheology and microstructure of water-in-water emulsions containing sodium caseinate and locust bean gum

Abstract

The mechanical response on the microscale of phase-separated water-in-water emulsions containing sodium caseinate (SCN) and locust bean gum (LBG) has been monitored by confocal laser scanning microscopy and particle tracking microrheology. Mixed biopolymer systems exhibiting phase-separated micro-regions were enriched in either protein or polysaccharide in the continuous or dispersed phase, depending on the weight ratio of the two biopolymers. Measurements of the tracking of charged probe particles revealed that the local rheological properties of protein-rich regions were considerably lower than that of LBG-rich domains for all the biopolymer ratios examined. At pH 7 in the absence of added salt, the viscosity of the protein-rich regions was little affected by an increase in overall LBG concentration, which is consistent with the phase separation mechanism in the mixed solution of charged (SCN) and uncharged (LBG) biopolymers being dominated by the relative entropy of the counter-ions associated with the charged protein molecules. Addition of salt was found to produce an enhancement in the level of thermodynamic incompatibility, leading to faster and more pronounced phase separation, and altering the micro-viscosity of protein-rich regions. At high ionic strength, it was also noted that there was a pronounced accumulation of incorporated probe particles at the liquid–liquid interface. The microrheological properties of the SCN-rich regions were found to be substantially pH-dependent in the range 7 > pH > 5.4. By adjusting the acidification conditions and the biopolymer ratio, discrete protein-based microspheres were generated with potential applications as a functional food ingredient.

Graphical abstract: Microrheology and microstructure of water-in-water emulsions containing sodium caseinate and locust bean gum

Article information

Article type
Paper
Submitted
12 Sep 2017
Accepted
08 Apr 2018
First published
25 Apr 2018

Food Funct., 2018,9, 2840-2852

Microrheology and microstructure of water-in-water emulsions containing sodium caseinate and locust bean gum

T. Moschakis, N. Chantzos, C. G. Biliaderis and E. Dickinson, Food Funct., 2018, 9, 2840 DOI: 10.1039/C7FO01412K

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