Impact of type of sugar beet pectin–sodium caseinate interaction on emulsion properties at pH 4.5 and pH 7

Zhang Juyang; Bettina Wolf

doi:10.3390/foods10030631

Impact of type of sugar beet pectin–sodium caseinate interaction on emulsion properties at pH 4.5 and pH 7

Zhang Juyang, Bettina Wolf

Chemical Engineering

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Abstract

Equal parts of sugar beet pectin and sodium caseinate were interacted through electrostatic attraction, enzymatic crosslinking, and the Maillard reaction to prepare three oil-in-water emulsifier systems. Oil-in-water emulsions (10%) were processed via high shear overhead mixing at the natural pH of the emulsifier systems, followed by pH adjustment to pH 4.5 and pH 7. The emulsions were stable against coalescence, except for a slight increase in the mean droplet size for the enzymatic cross-liked emulsion at pH 4.5 over a 14-day storage period. This emulsion also showed the lowest absolute zeta (ζ)-potential value of near 30 mV. The Maillard interaction emulsifier system resulted in larger droplet sizes compared to the other two emulsifier systems. Small deformation oscillatory shear rheology assessment of the emulsion cream phases revealed an impact of the emulsifier system design at pH 4.5.

Original language	English
Article number	631
Journal	Foods
Volume	10
Issue number	3
DOIs	https://doi.org/10.3390/foods10030631
Publication status	Published - 17 Mar 2021

Keywords

Emulsion
Interfacial tension
Protein–polysaccharide conjugates
Shear oscillatory rheology
Sodium caseinate
Sugar beet pectin

ASJC Scopus subject areas

Food Science
Microbiology
Health(social science)
Health Professions (miscellaneous)
Plant Science

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title = "Impact of type of sugar beet pectin–sodium caseinate interaction on emulsion properties at pH 4.5 and pH 7",

abstract = "Equal parts of sugar beet pectin and sodium caseinate were interacted through electrostatic attraction, enzymatic crosslinking, and the Maillard reaction to prepare three oil-in-water emulsifier systems. Oil-in-water emulsions (10%) were processed via high shear overhead mixing at the natural pH of the emulsifier systems, followed by pH adjustment to pH 4.5 and pH 7. The emulsions were stable against coalescence, except for a slight increase in the mean droplet size for the enzymatic cross-liked emulsion at pH 4.5 over a 14-day storage period. This emulsion also showed the lowest absolute zeta (ζ)-potential value of near 30 mV. The Maillard interaction emulsifier system resulted in larger droplet sizes compared to the other two emulsifier systems. Small deformation oscillatory shear rheology assessment of the emulsion cream phases revealed an impact of the emulsifier system design at pH 4.5.",

keywords = "Emulsion, Interfacial tension, Protein–polysaccharide conjugates, Shear oscillatory rheology, Sodium caseinate, Sugar beet pectin",

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T1 - Impact of type of sugar beet pectin–sodium caseinate interaction on emulsion properties at pH 4.5 and pH 7

AU - Juyang, Zhang

AU - Wolf, Bettina

PY - 2021/3/17

Y1 - 2021/3/17

N2 - Equal parts of sugar beet pectin and sodium caseinate were interacted through electrostatic attraction, enzymatic crosslinking, and the Maillard reaction to prepare three oil-in-water emulsifier systems. Oil-in-water emulsions (10%) were processed via high shear overhead mixing at the natural pH of the emulsifier systems, followed by pH adjustment to pH 4.5 and pH 7. The emulsions were stable against coalescence, except for a slight increase in the mean droplet size for the enzymatic cross-liked emulsion at pH 4.5 over a 14-day storage period. This emulsion also showed the lowest absolute zeta (ζ)-potential value of near 30 mV. The Maillard interaction emulsifier system resulted in larger droplet sizes compared to the other two emulsifier systems. Small deformation oscillatory shear rheology assessment of the emulsion cream phases revealed an impact of the emulsifier system design at pH 4.5.

AB - Equal parts of sugar beet pectin and sodium caseinate were interacted through electrostatic attraction, enzymatic crosslinking, and the Maillard reaction to prepare three oil-in-water emulsifier systems. Oil-in-water emulsions (10%) were processed via high shear overhead mixing at the natural pH of the emulsifier systems, followed by pH adjustment to pH 4.5 and pH 7. The emulsions were stable against coalescence, except for a slight increase in the mean droplet size for the enzymatic cross-liked emulsion at pH 4.5 over a 14-day storage period. This emulsion also showed the lowest absolute zeta (ζ)-potential value of near 30 mV. The Maillard interaction emulsifier system resulted in larger droplet sizes compared to the other two emulsifier systems. Small deformation oscillatory shear rheology assessment of the emulsion cream phases revealed an impact of the emulsifier system design at pH 4.5.

KW - Emulsion

KW - Interfacial tension

KW - Protein–polysaccharide conjugates

KW - Shear oscillatory rheology

KW - Sodium caseinate

KW - Sugar beet pectin

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DO - 10.3390/foods10030631

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Impact of type of sugar beet pectin–sodium caseinate interaction on emulsion properties at pH 4.5 and pH 7

Abstract

Keywords

ASJC Scopus subject areas

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