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中國精品科技期刊2020
韓西平,計紅芳,張瑩,等. 冷等離子體處理的面筋蛋白對雞肉糜凝膠品質特性的影響[J]. 食品工業科技,2024,45(6):84?90. doi: 10.13386/j.issn1002-0306.2023050171.
引用本文: 韓西平,計紅芳,張瑩,等. 冷等離子體處理的面筋蛋白對雞肉糜凝膠品質特性的影響[J]. 食品工業科技,2024,45(6):84?90. doi: 10.13386/j.issn1002-0306.2023050171.
HAN Xiping, JI Hongfang, ZHANG Ying, et al. Effect of Gluten Treated with Cold Plasma on Quality Properties of Chicken Gel[J]. Science and Technology of Food Industry, 2024, 45(6): 84?90. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023050171.
Citation: HAN Xiping, JI Hongfang, ZHANG Ying, et al. Effect of Gluten Treated with Cold Plasma on Quality Properties of Chicken Gel[J]. Science and Technology of Food Industry, 2024, 45(6): 84?90. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023050171.

冷等離子體處理的面筋蛋白對雞肉糜凝膠品質特性的影響

Effect of Gluten Treated with Cold Plasma on Quality Properties of Chicken Gel

  • 摘要: 以雞肉為原料,向其添加不同功率(350、500、650、800、950 W)冷等離子體處理的面筋蛋白,制得雞肉糜凝膠,探究不同處理面筋蛋白對雞肉糜凝膠蒸煮損失、保水性、流變特性、質構、化學作用力、微觀結構和水分遷移等品質特性的影響。結果表明:添加冷等離子體處理的面筋蛋白均可提高凝膠的保水性、降低蒸煮損失,650 W時保水性最高為96.47%、蒸煮損失最低為5.43%,與其它組相比均差異顯著(P<0.05);面筋蛋白的添加顯著提高了凝膠不易流動水的比例(P<0.05),降低了自由水的比例,T21、T22在0~650 W時向短方向移動,650 W時T21、T22最短。隨冷等離子體處理功率的增加,儲能模量G′先升高后下降,650 W時最高;硬度與咀嚼性持續上升,而彈性和回復性先上升后下降,二者均在650 W時達到最高,分別為0.954和0.367;添加冷等離子處理的面筋蛋白提高了凝膠的疏水作用和二硫鍵。冷等離子體處理的面筋蛋白可提高凝膠的形成能力、改善品質,650 W時凝膠的空間網狀結構致密有序,品質最佳。

     

    Abstract: Gluten was treated by cold plasma with different powers (350~950 W), and then were added to chicken batter, which was used as raw material. The cooking loss, water holding capacity, texture, dynamic rheology, chemical forces, microstructure, water distribution and migration of chicken gel containing cold plasma treatment gluten were analyzed. Results showed that, the addition of cold plasma treated gluten could raise the water holding capacity and reduce cooking loss of the gel. When gluten treated by cold plasma with power of 650 W was added, the water holding capacity of gel reached to the highest (the value was 96.47%) and the cooking loss was the lowest (the value was only 5.43%), either of them was significantly different compared to other groups (P<0.05). With addition of cold plasma treated gluten, the proportion of immobilized water in gel rose significantly while that of free water decreased (P<0.05), and the transverse relaxation time of both T21 and T22 moved in the direction of short relaxation time. And both T21 and T22 reached to the shortest when cold plasma treatment power was 650 W. With the increase of cold plasma treatment power, G' first increased and then decreased, and reached the highest value at 650 W. Additionally, both the hardness and chewiness rose continuously, while both the springiness and resilience increased first and then decreased, and reached the maximum at treatment power level of 650 W, their value was 0.954, and 0.367, respectively. Addition of cold plasma treated gluten could enhance both hydrophobic interaction and disulfide bonds. Addition of cold plasma treated gluten could strengthen gel formation ability and improve the quality of chicken gel. When the cold plasma treatment power was 650 W, the chicken gel was obtained with dense and uniform spatial network structure, and best quality.

     

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