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中国精品科技期刊2020
杜斌,黄安琪,林舒婧,等. 薏仁米糠多肽-亚铁螯合物的制备、结构表征及稳定性研究J. 食品工业科技,2026,47(17):1−10. doi: 10.13386/j.issn1002-0306.2025080272.
引用本文: 杜斌,黄安琪,林舒婧,等. 薏仁米糠多肽-亚铁螯合物的制备、结构表征及稳定性研究J. 食品工业科技,2026,47(17):1−10. doi: 10.13386/j.issn1002-0306.2025080272.
DU Bin, HUANG Anqi, LIN Shujing, et al. Preparation, Structure Sharacterization and Stability of Adlay Bran Peptide-iron ChelateJ. Science and Technology of Food Industry, 2026, 47(17): 1−10. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025080272.
Citation: DU Bin, HUANG Anqi, LIN Shujing, et al. Preparation, Structure Sharacterization and Stability of Adlay Bran Peptide-iron ChelateJ. Science and Technology of Food Industry, 2026, 47(17): 1−10. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025080272.

薏仁米糠多肽-亚铁螯合物的制备、结构表征及稳定性研究

Preparation, Structure Sharacterization and Stability of Adlay Bran Peptide-iron Chelate

  • 摘要: 为了充分利用薏仁米糠资源,减少蛋白质资源的浪费,该研究以薏仁米糠为原料提取薏仁米糠蛋白,经碱性蛋白酶酶解制备薏仁米糠多肽,采用单因素实验结合正交试验优化制备了薏仁米糠多肽-铁螯合物,通过扫描紫外光谱、傅里叶红外光谱、扫描电镜和原子力显微镜等分析方法,对制备的薏仁米糠多肽-铁螯合物(Adlay Bran Peptides - Iron chelate , ABP-Fe)进行结构表征,同时评价其稳定性,并通过体外模拟胃肠道消化试验探究其Fe2+释放特性。结果表明:薏仁米糠多肽-铁螯合物的最佳制备条件为pH 5.0,肽铁质量比为3:1,温度为40 ℃,反应20 min。在此条件下,螯合物中 Fe2+ 螯合率可达 76.33%。紫外光谱和傅里叶红外光谱结果显示,Fe2+与 ABP 肽链上的羧基氧和氨基氮发生螯合反应生成了新物质;扫描电镜以及原子力显微镜结果显示,薏仁米糠多肽与铁离子螯合后从表面光滑的碎片状变为表面粗糙的颗粒状,两者存在明显差异。此外,ABP-Fe螯合物对不同pH和温度表现出良好的稳定性,其在体外模拟胃肠道消化试验中也表现出比硫酸亚铁更高的Fe2+ 释放率。本实验制备的薏仁米糠多肽源性补铁剂螯合力强、稳定性好具有更高的释放率,可为薏仁米加工副产物的高效利用和新型膳食铁补充剂的开发提供建设性参考。

     

    Abstract: In order to fully utilize adlay bran resources and reduce the waste of protein resources, we prepared adlay bran peptides through alkaline protease hydrolysis of adlay bran protein, which was extracted from adlay bran. The preparation of adlay bran peptides - iron chelate (ABP-Fe) was optimized based on univariate analysis and orthogonal tests. The ABP-Fe was characterized using UV spectroscopy, Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), and atomic force microscopy (AFM). Also, its stability was explored and its Fe2+ release characteristics were investigated through in vitro gastrointestinal digestion simulations. The results showed that the optimized conditions for the preparation of ABP-Fe were pH5.0, peptide-to-iron mass ratio 3:1, reaction temperature 40 ℃ and reaction time 20 min. Under the optimized conditions, the chelation rate of Fe2+ in the ABP-Fe reached 76.33%. Characterization using UV and FTIR spectroscopy indicate that Fe2+ chelates with the carboxyl oxygen and amino nitrogen on the ABP peptide chains to form a new substance. Characterization using SEM and AFM reveal that the adlay bran peptides transform from smooth fragments into rough particles after chelation with Fe2+, with significant morphological differences. Additionally, the ABP-Fe exhibited good stability under varying pH and temperatures, and its Fe2+ release rate was higher than that of ferrous sulfate in the in vitro gastrointestinal digestion simulations. The as-prepared adlay bran peptide-derived iron supplement exhibited excellent chelation capability, good stability, and high release rate. This study provides insights for efficient utilization of adlay processing by-products and development of novel dietary iron supplements.

     

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