The use of whey protein particles in gluten-free bread production, the effect of particle stability

L.E. van Riemsdijk; A.J. van der Goot; R.J. Hamer

doi:10.1016/j.foodhyd.2011.03.017

The use of whey protein particles in gluten-free bread production, the effect of particle stability

L.E. van Riemsdijk, A.J. van der Goot, R.J. Hamer

Research output: Contribution to journal › Article › Academic › peer-review

31 Citations (Scopus)

Abstract

Wheat dough has unique properties for bread making due to its elastic and strain hardening behaviour. A mesoscopically structured whey protein particle system possesses those elastic and strain hardening properties when mixed with starch to a certain extent. However, the extensibility is lower and the particles are more stable than gluten particles upon kneading, probably due to a too high degree of internal crosslinking. This study describes the relation between the number of disulphide bonds of a mesoscopic whey protein particle suspension blocked by NEM treatment and the resulting properties of a dough and bread prepared with that suspension. This study shows that the properties of the particle network are influenced by the ability to form disulphide bonds. Our study shows that a certain amount of disulphide bonds is essential, but too many disulphide bonds can lead to too stiff dough and poorer bread properties

Original language	English
Pages (from-to)	1744-1750
Journal	Food Hydrocolloids
Volume	25
Issue number	7
DOIs	https://doi.org/10.1016/j.foodhyd.2011.03.017
Publication status	Published - 2011

Keywords

rheological properties
dough
flour
shear
macropolymer
subfractions
performance
baking

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10.1016/j.foodhyd.2011.03.017

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title = "The use of whey protein particles in gluten-free bread production, the effect of particle stability",

abstract = "Wheat dough has unique properties for bread making due to its elastic and strain hardening behaviour. A mesoscopically structured whey protein particle system possesses those elastic and strain hardening properties when mixed with starch to a certain extent. However, the extensibility is lower and the particles are more stable than gluten particles upon kneading, probably due to a too high degree of internal crosslinking. This study describes the relation between the number of disulphide bonds of a mesoscopic whey protein particle suspension blocked by NEM treatment and the resulting properties of a dough and bread prepared with that suspension. This study shows that the properties of the particle network are influenced by the ability to form disulphide bonds. Our study shows that a certain amount of disulphide bonds is essential, but too many disulphide bonds can lead to too stiff dough and poorer bread properties",

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T1 - The use of whey protein particles in gluten-free bread production, the effect of particle stability

AU - van Riemsdijk, L.E.

AU - van der Goot, A.J.

AU - Hamer, R.J.

PY - 2011

Y1 - 2011

N2 - Wheat dough has unique properties for bread making due to its elastic and strain hardening behaviour. A mesoscopically structured whey protein particle system possesses those elastic and strain hardening properties when mixed with starch to a certain extent. However, the extensibility is lower and the particles are more stable than gluten particles upon kneading, probably due to a too high degree of internal crosslinking. This study describes the relation between the number of disulphide bonds of a mesoscopic whey protein particle suspension blocked by NEM treatment and the resulting properties of a dough and bread prepared with that suspension. This study shows that the properties of the particle network are influenced by the ability to form disulphide bonds. Our study shows that a certain amount of disulphide bonds is essential, but too many disulphide bonds can lead to too stiff dough and poorer bread properties

AB - Wheat dough has unique properties for bread making due to its elastic and strain hardening behaviour. A mesoscopically structured whey protein particle system possesses those elastic and strain hardening properties when mixed with starch to a certain extent. However, the extensibility is lower and the particles are more stable than gluten particles upon kneading, probably due to a too high degree of internal crosslinking. This study describes the relation between the number of disulphide bonds of a mesoscopic whey protein particle suspension blocked by NEM treatment and the resulting properties of a dough and bread prepared with that suspension. This study shows that the properties of the particle network are influenced by the ability to form disulphide bonds. Our study shows that a certain amount of disulphide bonds is essential, but too many disulphide bonds can lead to too stiff dough and poorer bread properties

KW - rheological properties

KW - dough

KW - flour

KW - shear

KW - macropolymer

KW - subfractions

KW - performance

KW - baking

U2 - 10.1016/j.foodhyd.2011.03.017

DO - 10.1016/j.foodhyd.2011.03.017

M3 - Article

SN - 0268-005X

VL - 25

SP - 1744

EP - 1750

JO - Food Hydrocolloids

JF - Food Hydrocolloids

IS - 7

ER -

The use of whey protein particles in gluten-free bread production, the effect of particle stability

Abstract

Keywords

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