食品科学 ›› 2022, Vol. 43 ›› Issue (19): 28-35.doi: 10.7506/spkx1002-6630-20220613-128

• 风味感官专栏 • 上一篇    下一篇

热处理对豌豆分离蛋白结合典型牛肉香气物质的影响及相互作用机制

徐思佳,毕爽,张文涛,潘鑫,劳菲,沈群,吴继红   

  1. (1.中国农业大学食品科学与营养工程学院,国家果蔬加工工程技术研究中心,农业农村部果蔬加工重点实验室,食品非热加工北京市重点实验室,北京 100083;2.北京工商大学食品与健康学院,北京 100048)
  • 出版日期:2022-10-15 发布日期:2022-10-26
  • 基金资助:
    “十三五”国家重点研发计划重点专项(2017YFD0401202)

Effect of Heat Treatment on the Binding of Pea Protein Isolate to Typical Beef Aroma Substances and Their Interaction Mechanism

XU Sijia, BI Shuang, ZHANG Wentao, PAN Xin, LAO Fei, SHEN Qun, WU Jihong   

  1. (1. National Engineering Research Center for Fruit and Vegetable Processing, Key Laboratory of Fruit and Vegetable Processing of Ministry of Agricultural and Rural Affairs, Key Laboratory of Non-thermal Food Processing, College of Food Science & Nutritional Engineering, China Agricultural University, Beijing 100083, China; 2. College of Food and Health, Beijing Technology and Business University, Beijing 100048, China)
  • Online:2022-10-15 Published:2022-10-26

摘要: 为明确热处理对豌豆分离蛋白结合典型牛肉香气物质的影响,采用气相色谱-质谱联用、荧光光谱等方法,探究结合率和香气物质性质、蛋白性质的相关性,明确相互作用机理。结果表明,疏水系数(log P)较大的2-甲基-3-巯基呋喃和(E,E)-2,4-癸二烯醛与蛋白的结合率在加热前后均大于98%。常温下,豌豆分离蛋白与5-羟乙基-4-甲基噻唑和2-甲基吡嗪的结合率分别为(80.34±7.68)%和(17.58±0.58)%,低于前2 种香气物质。随着温度升高,豌豆分离蛋白与5-羟乙基-4-甲基噻唑的结合率降低而与2-甲基吡嗪的结合率升高,100 ℃加热10 min后结合率分别为(54.41±4.14)%和(25.35±1.26)%。经过120 ℃加热10 min和100 ℃延长加热时间后,豌豆分离蛋白与5-羟乙基-4-甲基噻唑和2-甲基吡嗪的结合均增强。热处理使位于疏水表面的2-甲基吡嗪结合位点暴露增加,豌豆分离蛋白和2-甲基吡嗪主要通过氢键和范德华力结合。本研究结果可为以豌豆分离蛋白为原料制备植物肉的热加工过程风味品质调控提供理论依据。

关键词: 豌豆分离蛋白;热处理;牛肉香气物质;蛋白性质;相互作用

Abstract: To clarify the effect of heat treatment on the binding of pea protein isolate (PPI) to typical beef aroma substances, gas chromatography-mass spectrometry (GC-MS), fluorescence spectrometry and other methods were used to explore the correlation between the binding rate and aroma properties and protein properties, as well as the interaction mechanism. The results showed that the binding rates of 2-methyl-3-mercaptofuran and (E,E)-2,4-decadienal, with larger hydrophobic coefficients (log P), to PPI were greater than 98% before and after heating. At room temperature, the binding rates of 5-(2-hydroxyethyl)-4-methylthiazole and 2-methylpyrazine to PPI were (80.34 ± 7.68)% and (17.58 ± 0.58)%, respectively and lower than those of 2-methyl-3-mercaptofuran and (E,E)-2,4-decadienal. With increasing heating temperature, the binding rate of 5-(2-hydroxyethyl)-4-methylthiazole decreased while that of 2-methylpyrazine increased. After heating at 100 ℃ for 10 min, the binding rates were (54.41 ± 4.14)% and (25.35 ± 1.26)%, respectively. After heating at 120 ℃ for 10 min and with increasing heating time at 100 ℃, the binding rate of 5-(2-hydroxyethyl)-4-methylthiazole and 2-methylpyrazine increased. Heat treatment increased the exposure of 2-methylpyrazine binding sites on the protein surface, and the protein and 2-methylpyrazine interacted via van der Waals forces and hydrogen bonds. These results provide a theoretical basis for flavor quality control of plant-based meat prepared from pea protein isolate during hot processing.

Key words: pea protein isolate; heat treatment; beef aroma substances; protein properties; interaction

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