Synergistic Modification of Soybean Protein Isolate by Phosphorylation and Glycosylation for Enhanced Astaxanthin Emulsions: Efficacy, Stability and In Vitro Digestion.
- 2026-03-31
- Foods (Basel, Switzerland) 15(7)
- Hua Jin
- Wenkang Li
- Wanze Zhang
- Yi Wu
- Xin Zhang
- Dongjie Bao
- Siew-Young Quek
- Jing Xu
- PubMed: 41976464
- DOI: 10.3390/foods15071170
Study Design
- Methods
- Soy protein isolate modified by sodium trimetaphosphate phosphorylation and dextran glycosylation to prepare TSPI-DX conjugate, used as emulsifier for astaxanthin emulsion.
In this study, a novel combination strategy of sodium trimetaphosphate (STMP) phosphorylation and dextran (DX) glycosylation was employed to modify soy protein isolate (SPI). The phosphorylated protein-dextran conjugate (TSPI-DX) was successfully prepared and then was used as an emulsifier to prepare the astaxanthin emulsion, with the aim to enhance the emulsion delivery performance. Structural analysis revealed that phosphorylation and glycosylation altered the microenvironment of the side chains, leading to changes in protein secondary structure, which consequently loosened the protein architecture and enhanced molecular flexibility. The functional properties of TSPI-DX, including its solubility, emulsifying activity (EAI) and emulsifying stability (ESI), were markedly enhanced. Furthermore, the concurrent modification through phosphorylation and the Maillard reaction yielded a synergistic effect, boosting the DPPH radical scavenging rate by 86.5% and increasing the ferric-ion reducing power nearly fourfold. The astaxanthin emulsion prepared by modified SPI also exhibited several advantages. The TSPI-DX emulsion exhibited a markedly smaller mean particle size and a larger absolute Zeta-potential value. Consequently, with the higher electrostatic repulsion and steric hindrance among the droplets, the astaxanthin emulsion prepared by TSPI-DX demonstrated superior encapsulation efficiency and stability across various conditions, including storage, oxidation, thermal, and pH challenges. Moreover, in vitro digestion experiments revealed that the modified SPI emulsion facilitated a higher extent of lipolysis and astaxanthin bioaccessibility. Therefore, this work proposes a novel strategy for constructing plant-protein emulsion systems with enhanced delivery and release capabilities.