4.7 Article

Fibrillar assembly of whey protein isolate and gum Arabic as iron carrier for food fortification

Journal

FOOD HYDROCOLLOIDS
Volume 128, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.107608

Keywords

Fibrillation; Assembly; Whey protein isolate; Gum Arabic; Iron ions

Funding

  1. National Natural Science Foundation of China [31871812]

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In this study, fibrous aggregates consisting of whey protein isolate (WPI) and gum arabic (GA) with ferric ions were fabricated and thoroughly investigated. The study focused on the fibrillation process, morphology, secondary structure, driving force, iron release in simulated gastrointestinal phase, and sensory properties of the WPI/GA(Fe3+) fibrils. The results showed promising potential for the application of WPI/GA(Fe3+) fibrils in iron fortification in the food industry, as they exhibited favorable fibrillation conditions, desirable morphology, delayed iron release in the gastric phase, increased sensory scores, and high potential for absorption in the duodenum.
In this study, fibrous aggregates of whey protein isolate (WPI) and gum arabic (GA) containing ferric ions were fabricated, and its fibrillation process, morphology, secondary structure, driving force, iron release in simulated gastrointestinal phase as well as its sensory properties have been investigated. The results indicated that WPI/ GA(Fe3+) fibrils could be well formed at the mass ratio of 15: 1, concentration of 2.0 wt%, pH 3.0, heated at 90 ? for 5 h. It was observed by scanning electron microscopy and found that the nanospheric GA(Fe3+) was regularly entangled at the end or junction of WPI fibrils. Both circular dichroism and FTIR confirmed that secondary conformations of protein have been transformed into specific forms during the fibrilization, along with an in-crease of beta-sheet and a decrease of alpha-helix. The addition of SDS disintegrating the WPI/GA(Fe3+) fibrils revealed the significant contribution of intermolecular hydrophobic interaction as the dominant driving forces for the for-mation of WPI/GA(Fe3+) fibrils. The iron ions release showed a significant delay in the gastric phase and followed by a rapid increase in the intestinal phase, profitable for the orally administered products with high absorption in duodenum. Moreover, the WPI/GA(Fe3+) fibrils exhibited higher sensory scores compared with WPI/GA(Fe3+) nanoparticles on the attributes of texture, color, odor and acceptance. Thus, the proposed fabrication of WPI/ GA(Fe3+) fibrils complexes is expected to be promising for iron fortification in food industry.

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