Abstract
Gelatinization, retrogradation and gel properties of wheat starch–wheat bran arabinoxylan (WS–WBAX) complexes have been evaluated. The results of rapid viscosity analyzer (RVA), differential scanning calorimetry (DSC) and Fourier transform infrared spectroscopy (FTIR) confirmed that WBAX samples with larger Mw and branching degree (HWBAX) significantly impeded gelatinization process of starch by effectively reducing the amount of water available for starch gelatinization. DSC analysis showed that both molecular characteristics and additive amount of WBAX samples have an effect on the long-term retrogradation behavior of starch. For the rheological studies of WS–WBAX mixed gels, the elastic moduli (G’) and shear viscosity of WS–WBAX mixed gels increased with the increase in additive amount of WBAX. WS–HWBAX mixed gels exhibited the lower G’ compared with starch gels containing WBAX with lower Mw and branching degree (LWBAX) at the same amount. The scanning electron micrographs (SEM) revealed that the microstructures of WS–WBAX mixed gels were mainly affected by the amount of WBAX, but hardly by the molecular characteristics of WBAX. Texture profile analysis (TPA) showed that the cohesiveness of fresh WS–WBAX mixed gels became larger with an increase in the WBAX addition amount. The hardness of WS–WBAX mixed gels tended to increase over the 14-day storage.
Highlights
Starch is the main component in wheat, contributing to the characteristics of wheatbased foods that include moisture retention, viscosity, texture, taste and shelf-life [1]
Stronger interactions between LWBAX and swollen starch particles or leached amylopectin might be responsible for this result [20,21]
There was no significant difference in cohesiveness of all WS–wheat bran arabinoxylan (WBAX) mixed gels retrograded for 14 days. Both molecular characteristics and additive amounts of WBAX samples have an effect on the gelatinization, long-term retrogradation and gel properties of starch–WBAX complexes
Summary
Starch is the main component in wheat, contributing to the characteristics of wheatbased foods that include moisture retention, viscosity, texture, taste and shelf-life [1]. The quality attributes of starch-containing products result from the specific gelatinization and retrogradation behavior of starch [2]. Numerous studies have explored the effect of non-starch polysaccharides on the gelatinization behavior of starch. Ma et al (2019) reported that Konjac glucomannan (KGM) addition raised the peak viscosity and breakdown values of corn starch [4]. Chen et al (2016) suggested that the addition of xanthan and curdlan increased the peak viscosities [5] but decreased the final and setback viscosities of rice starch
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