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Prediction of the rheological properties of wheat dough by starch‐gluten model dough systems: effect of gluten fraction and starch variety

Fen Xu, Wei Liu, Liang Zhang, Qiannan Liu, Xiaojia Hu, Feng Wang, Hong Zhang, Honghai Hu, Christophe Blecker

2022International Journal of Food Science & Technology14 citationsDOI

Abstract

Summary The present study sought to investigate the rheological properties of wheat starch‐gluten (WS‐G) and potato starch‐gluten (PS‐G) model doughs with different gluten fractions to elucidate the effectiveness of using model dough to predict wheat dough properties. The highest linear viscoelastic region, frequency dependence, maximum creep compliance and the lowest viscoelastic modulus and zero shear viscosity were observed in the wheat dough, followed by WS‐G and PS‐G model doughs. PS exerted a more significant damage effect on the gluten network while WS shared a tight integration with gluten protein, forming a more stable dough structure. The viscoelasticity of the model doughs shared a close association with the wheat dough under increased gluten fraction, while the frequency dependence of the model doughs showed no trend towards wheat dough. Therefore, starch‐gluten model dough could not fully stimulate the functionality of wheat dough irrespective of its gluten fraction.

Topics & Concepts

GlutenRheologyViscoelasticityStarchFood scienceWheat glutenWheat starchMaterials scienceWheat flourViscosityChemistryComposite materialFood composition and propertiesPolysaccharides Composition and ApplicationsMicrobial Metabolites in Food Biotechnology
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