Macromolecular interactions during gelatinisation and retrogradation in starch-whey systems as studied by rapid visco-analyser


Autoria(s): Sopade, P. A.; Hardin, M. T.; Fitzpatrick, S.; Desmee, H.; Halley, P. J.
Data(s)

01/01/2006

Resumo

Gelatinisation and retrogradation of starch-whey mixtures were studied in water (pH 7) using the Rapid Visco-Analyser (RVA). The starch:whey ratios ranged from 0:100 - 100:0. Wheat starch, and whey protein concentrate (about 80% solids basis) and isolate (about 96% solids basis) were used. Mixtures with whey isolates were generally more viscous than those with whey concentrates, and this was attributed to fewer non-protein milk components in the former. Whey protein concentrates and isolates reduced the peak, trough and final viscosities of the mixtures, but the breakdown and setback ratios of the mixtures were increased. The gelatinisation temperature increased with whey substitutions indicating that whey protein delayed starch gelatinisation. The temperature of fastest viscosity development decreased as the amount of whey was increased. Whey protein isolate generally exercised a lesser effect than the concentrate. At between 40 - 50% whey substitutions, the dominant phase changed from starch to protein irrespective of the source of the whey protein. An additive law poorly defined selected RVA parameters. Both macromolecules interacted to define the viscosity of the mixture, and an exponential model predicted the viscosity better than the additive law. The results obtained in this study are discussed to assist the understanding of extrusion processing of starch-whey systems as models for whey-fortified snack and ready-to-eat foods. Copyright ©2006 The Berkeley Electronic Press. All rights reserved.

Identificador

http://espace.library.uq.edu.au/view/UQ:83487/UQ83487_OA.pdf

http://espace.library.uq.edu.au/view/UQ:83487

Idioma(s)

eng

Publicador

Walter de Gruyter

Palavras-Chave #High-protein low-carbohydrate foods #Ready-to-eat (RTE) #RVA #Snack foods
Tipo

Journal Article