超分子化学
结合
水溶液中的金属离子
金属
合理设计
化学
离子
纳米技术
组合化学
材料科学
化学工程
纳米颗粒
配位复合体
抗氧化剂
自组装
超分子组装
控制释放
疏水效应
化学稳定性
封装(网络)
静电相互作用
静电学
作者
Qian‐Da Xu,Zhilong Yu,Qiang He,Wei‐Cai Zeng
标识
DOI:10.1016/j.fochx.2025.103180
摘要
Regulation of different metal ions on the properties, structure, self-assembly and encapsulating capabilities of soybean globulin (SG)-tannic acid (TA) conjugates were investigated. Through coordination interactions, metal ions promoted the supramolecular self-assembly of SG, resulting in the efficient encapsulation of β-carotene in its hydrophobic domains. Fe 3+ and Cu 2+ enhanced particle integrity by forming stable metal–polyphenol networks, while Al 3+ and Zn 2+ achieved the highest β-carotene encapsulation efficiency due to their appropriate capability to interact with SG/TA and lower destructive effect on β-carotene. In the presence of TA, Fe 3+ /Cu 2+ imparted strong pH stability to the carriers, Al 3+ /Mg 2+ /Zn 2+ preserved β-carotene under light/heat/oxygen conditions, and Al 3+ /Zn 2+ promoted superior antioxidant activity and β-carotene bioaccessibility during digestion. These findings demonstrate that metal ions with distinct coordination characteristics significantly influence the functionality of SG–TA conjugates, offering insights for the rational design of metal-induced protein–polyphenol delivery systems. • Metal-induced protein self-assembly effectively encapsulate β-carotene. • Tannic acid and different metal ions modulates the self-assembly strength of protein. • Metal–polyphenol networks enhance the structural stability of the particles. • The encapsulation enhances the stability of β-carotene in extreme conditions. • Al 3+ and Zn 2+ induced particles achieve higher bioaccessibilites for β-carotene.
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