Isoenergic modification of whey protein structure by denaturation and crosslinking using transglutaminase

Emil G. P. Stender; Glykeria Koutina; Kristoffer Almdal; Tue Hassenkam; Alan Mackie; Richard Ipsen; Birte Svensson

doi:10.1039/c7fo01451a

Isoenergic modification of whey protein structure by denaturation and crosslinking using transglutaminase

Authors:

Stender, Emil G. P. ;
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Department of Biotechnology and Biomedicine, Technical University of Denmark
Koutina, Glykeria ;
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University of Copenhagen
Almdal, Kristoffer ;
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0000-0002-5490-9303
Department of Micro- and Nanotechnology, Technical University of Denmark
Hassenkam, Tue ;
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University of Copenhagen
Mackie, Alan ;
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University of Leeds
Ipsen, Richard ;
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unknown
Svensson, Birte
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0000-0002-2993-8196
Department of Biotechnology and Biomedicine, Technical University of Denmark

DOI:

10.1039/c7fo01451a

Abstract:

Transglutaminase (TG) catalyzes formation of covalent bonds between lysine and glutamine side chains and has applications in manipulation of food structure. Physical properties of a whey protein mixture (SPC) denatured either at elevated pH or by heat-treatment and followed by TG catalyzed crosslinking, have been characterised using dynamic light scattering, size exclusion chromatography, flourescence spectroscopy and atomic force microscopy. The degree of enzymatic crosslinking appeared higher for pH- than for heat-denatured SPC. The hydrophobic surface properties depended on the treatment, thus heating caused the largest exposure of the hydrophobic core of SPC proteins, which was decreased by crosslinking. The particle size of the treated SPC samples increased upon crosslinking by TG. Moreover, the particle morphology depended on the type of denaturing treatment, thus heat-treated SPC contained fibrillar structures, while pH-denatured SPC remained globular as documented by using atomic force microscopy. Finally, the in vitro digestability of the different SPC samples was assessed under simulated gastric and intestinal conditions. Notably heat-treatment was found to lower the gastric digestion rate and enzymatic crosslinking reduced both the gastric and the intestinal rate of digestion. These characteristics of the various SPC samples provide a useful basis for design of isoenergic model foods applicable in animal and human studies on how food structure affects satiety.

Type:

Journal article

Language:

English

Published in:

Food and Function, 2018, Vol 9, Issue 2, p. 797-805

Main Research Area:

Science/technology

Publication Status:

Published

Review type:

Peer Review

Submission year:

2018

Scientific Level:

Scientific

ID:

2395199018

Isoenergic modification of whey protein structure by denaturation and crosslinking using transglutaminase

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