Issue 31, 2019

Transient measurement and structure analysis of protein–polysaccharide multilayers at fluid interfaces

Abstract

The formation of electrostatic protein–polysaccharide multilayers has attracted attention for the design of fluid interfaces with enhanced stability and functionality. However, current techniques are often limited to measuring final multilayer properties. We present an interfacial shear rheology setup with simultaneous subphase exchange, allowing the transient measurement of biopolymer multilayers by their viscoelasticity. The successive and simultaneous adsorption of β-lactoglobulin (β-lg) and low-methoxyl pectin were investigated at the n-dodecane/water interface at pH 4. The successive injection of pectin increased the viscoelasticity of an adsorbed β-lg layer by electrostatic complexation. On the other hand, simultaneous adsorption impeded adsorption kinetics and interfacial layer strength due to complexation in the bulk phase prior to adsorption. Neutron reflectometry at the air–water interface confirmed the formation of an initial β-lg layer and electrostatic complexation of a secondary pectin layer, which desorbed upon pH-induced charge inversion. The layer formed by simultaneous adsorption mainly consisted of β-lg. We conclude that protein–polysaccharide complexes show limited surface activity and result in a lower effective protein concentration available for adsorption.

Graphical abstract: Transient measurement and structure analysis of protein–polysaccharide multilayers at fluid interfaces

Article information

Article type
Paper
Submitted
03 Jun 2019
Accepted
09 Jul 2019
First published
09 Jul 2019
This article is Open Access
Creative Commons BY license

Soft Matter, 2019,15, 6362-6368

Transient measurement and structure analysis of protein–polysaccharide multilayers at fluid interfaces

P. Bertsch, A. Thoma, J. Bergfreund, T. Geue and P. Fischer, Soft Matter, 2019, 15, 6362 DOI: 10.1039/C9SM01112A

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