Shujun Wang scite author profile

The aim of the present study was to characterize the multiscale structures of ternary complexes of a model system of starch, fatty acid (FA), and β-lactoglobulin (βLG) prepared using a Rapid Visco Analyzer (RVA). The addition of βLG to starch-lauric acid or starch-oleic acid RVA pastes resulted in the increased intensity or occurrence of a new viscosity peak during cooling when the RVA protocol was repeated. The viscosity peak was attributed to the formation of starch-βLG-FA complexes. Differential scanning calorimetry (DSC) results showed clearly that the starch-βLG-FAs complex was formed as gelatinized starch was cooled in the presence of βLG and FAs. The results of Raman, FTIR, and X-ray diffraction analyses showed that starch can interact with βLG and FAs to form a ternary V-type crystalline complex, which had a greater short-range molecular order and higher relative crystallinity compared with those of the binary starch-FA complex. The present study provided insights into the structure of a model starch-protein-fatty acid complex as an example of what might occur during food processing.

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Annealing improves paste viscosity and stability of starch

Wang

2017

Food Hydrocolloids

132

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Changes of multi-scale structure during mimicked DSC heating reveal the nature of starch gelatinization

Wang

Xiu

Wang

et al. 2016

Sci Rep

129

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A thorough understanding of starch gelatinization is extremely important for precise control of starch functional properties for food processing and human nutrition. Here we reveal the molecular mechanism of starch gelatinization by differential scanning calorimetry (DSC) in conjunction with a protocol using the rapid viscosity analyzer (RVA) to generate material for analysis under conditions that simulated the DSC heating profiles. The results from DSC, FTIR, Raman, X-ray diffraction and small angle X-ray scattering (SAXS) analyses all showed that residual structural order remained in starch that was heated to the DSC endotherm end temperature in starch:water mixtures of 0.5 to 4:1 (v/w). We conclude from this study that the DSC endotherm of starch at a water:starch ratio of 2 to 4 (v/w) does not represent complete starch gelatinization. The DSC endotherm of starch involves not only the water uptake and swelling of amorphous regions, but also the melting of starch crystallites.

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Molecular order and functional properties of starches from three waxy wheat varieties grown in China

et al. 2015

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Applications of ionic liquids in starch chemistry: a review

et al. 2020

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Shujun Wang

Insights into the Formation and Structures of Starch–Protein–Lipid Complexes

Annealing improves paste viscosity and stability of starch

Changes of multi-scale structure during mimicked DSC heating reveal the nature of starch gelatinization

Molecular order and functional properties of starches from three waxy wheat varieties grown in China

Applications of ionic liquids in starch chemistry: a review

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