食品科学 ›› 2026, Vol. 47 ›› Issue (11): 121-130.doi: 10.7506/spkx1002-6630-20251128-239

• 生物工程 • 上一篇    

豌豆蛋白水解物中二肽基肽酶-IV抑制肽的活性分析

陈亮,张新雪,孟甘露,姜妍,盖颖,卢知浩,欧丽明,谷瑞增,杨晓泉   

  1. (1.华南理工大学食品科学与工程学院,广东 广州 510640;2.中国食品发酵工业研究院有限公司, 北京市蛋白功能肽工程技术研究中心,北京 100015;3.北京林业大学生物科学与技术学院,北京 100083)
  • 发布日期:2026-07-02
  • 基金资助:
    保利中轻科技创新基金项目(ZQ2023JC-GC02;ZQ2023JC-SW04)

Identification and Activity Evaluation of Dipeptidyl Peptidase-IV Inhibitory Peptides in Pea Protein Hydrolysate

CHEN Liang, ZHANG Xinxue, MENG Ganlu, JIANG Yan, GAI Ying, LU Zhihao, OU Liming, GU Ruizeng, YANG Xiaoquan   

  1. (1. School of Food Science and Engineering, South China University of Technology, Guangzhou 510640, China; 2. Beijing Engineering Research Center of Protein and Functional Peptides, China National Research Institute of Food & Fermentation Industries Co. Ltd., Beijing 100015, China; 3. School of Biological Sciences and Technology, Beijing Forestry University, Beijing 100083, China)
  • Published:2026-07-02

摘要: 本研究以豌豆蛋白为原料,经酶解、分离纯化制备豌豆蛋白水解物,并分析其基础理化性质,其蛋白质量分数为(89.43±3.03)%,肽质量分数为(75.72±1.65)%,分子质量<1 000 Da的组分占比90.39%。利用高效液相色谱-质谱联用技术鉴定出3 条核心肽段:缬氨酰-丙氨酸(Val-Ala,VA)、苯丙氨酰-脯氨酰-色氨酸(Phe-Pro-Trp,FPW)、色氨酰-脯氨酰-苯丙氨酸(Trp-Pro-Phe,WPF)。通过分子对接技术分析肽段与二肽基肽酶-IV(dipeptidyl peptidase-IV,DPP-IV)的靶向结合作用,结果显示,FPW、WPF均能对接至DPP-IV的S2活性口袋,其相互作用位点与阳性对照异亮氨酰-脯氨酰-异亮氨酸(Ile-Pro-Ile,IPI)的作用位点高度相似。在LibDOCK对接模式下,FPW、WPF的得分均高于IPI,而VA得分低于IPI。进一步对得分最高的FPW与DPP-IV复合物进行100 ns分子动力学模拟,结果显示复合物的均方根偏差、回旋半径及氢键数量均保持稳定,结合自由能为(-43.53±0.23)kJ/mol,表明二者结合稳定且亲和力强。体外DPP-IV抑制实验表明,FPW、WPF和VA均能抑制DPP-IV活性,且呈剂量依赖性,在20 mg/mL质量浓度条件下抑制率分别达(99.03±0.89)%、(98.54±0.60)%和(94.14±1.05)%。本研究鉴定了豌豆DPP-IV抑制肽FPW、WPF、VA,通过分子对接验证了3 条肽段的靶向结合能力,分子动力学模拟证实FPW与DPP-IV复合物结构稳定,体外实验表明三者均具剂量依赖性DPP-IV抑制活性。本研究为开发基于豌豆蛋白水解物的降血糖功能食品提供了理论依据。

关键词: 豌豆蛋白水解物;二肽基肽酶-IV抑制肽;肽序列鉴定;分子对接;分子动力学模拟

Abstract: In this study, pea protein hydrolysate was prepared by enzymatic hydrolysis, followed by isolation and purification. Its basic physicochemical properties were analyzed, revealing a protein content of (89.43 ± 3.03)%, a peptide content of (75.72 ± 1.65)%, and a high proportion (90.39%) of components with a molecular mass of < 1 000 Da. Three core peptide sequences were identified using high performance liquid chromatography-mass spectrometry (HPLC-MS), including Val-Ala (VA), Phe-Pro-Trp (FPW), and Trp-Pro-Phe (WPF). Molecular docking was performed to analyze the targeted binding of these peptides to dipeptidyl peptidase-IV (DPP-IV). The results showed that both FPW and WPF could bind to the S2 active pocket of DPP-IV through docking, and their interaction sites were highly similar to those of the positive control Ile-Pro-Ile (IPI). Under the LibDOCK docking mode, both FPW and WPF achieved higher scores than IPI, while the score of VA was lower than that of IPI. Furthermore, a 100 ns molecular dynamics simulation was conducted on the complex of the highest scored peptide (FPW) and DPP-IV. It was found that the complex maintained stable root mean square deviation (RMSD), radius of gyration (Rg), and number of hydrogen bonds, accompanied by a binding free energy (ΔGbind) of (–43.53 ± 0.23) kJ/mol. This indicates a stable binding conformation and strong affinity between FPW and DPP-IV. In vitro assays confirmed the DPP-IV inhibitory activity of FPW, WPF, and VA in a dose-dependent manner. At a concentration of 20 mg/mL, the inhibition rates of FPW, WPF, and VA reached (99.03 ± 0.89)%, (98.54 ± 0.60)%, and (94.14 ± 1.05)%, respectively. In summary, this study provides a theoretical basis for the development of blood glucose-lowering functional foods based on pea protein hydrolysate.

Key words: pea protein hydrolysate; dipeptidyl peptidase-IV inhibitory peptides; peptide identification; molecular docking; molecular dynamics simulation

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