食品科学 ›› 2026, Vol. 47 ›› Issue (12): 283-292.doi: 10.7506/spkx1002-6630-20251217-136

• 食品工程 • 上一篇    

膨胀处理对无骨鸡爪胶原蛋白多尺度结构及其水合特性的影响机制

何义国,赵兴秀,廖珍,魏帅,张蕾,唐正,梁惠   

  1. (四川轻化工大学食品与酿酒工程学院,四川 宜宾 644000)
  • 发布日期:2026-07-08
  • 基金资助:
    自贡市概念验证类项目(2024-GNYZ-05);四川轻化工大学科研团队创新项目(SUSE652A009)

Mechanism of the Effects of Swelling Treatment on the Multi-scale Structure and Hydration Properties of Collagen in Boneless Chicken Feet

HE Yiguo, ZHAO Xingxiu, LIAO Zhen, WEI Shuai, ZHANG Lei, TANG Zheng, LIANG Hui   

  1. (School of Food and Liquor Engineering, Sichuan University of Science and Engineering, Yibin 644000, China)
  • Published:2026-07-08

摘要: 为探究膨胀处理改善无骨鸡爪品质的机理,本研究系统分析无骨鸡爪在膨胀过程中胶原蛋白含量与结构的动态变化。采用膨胀与入味处理后,对其理化性质及质构特性进行分析。采用酸-酶复合法提取不同膨胀率(0%~50%)下的胶原蛋白,并利用扫描电镜(scanning electron microscope,SEM)、紫外光谱(ultraviolet spectrum,UV)、傅里叶变换红外光谱(Fourier transform infrared spectroscopy,FTIR)、圆二色光谱(circular dichroism,CD)及低场核磁共振(low-field nuclear magnetic resonance,LF-NMR)技术对胶原蛋白结构进行系统表征。结果表明,经膨胀和入味处理后,鸡爪的水分含量和L*值先升高后降低,离心损失率显著增加;剪切力、硬度和咀嚼性显著降低,弹性显著提升(P<0.05)。膨胀处理(30 ℃、pH 3.2、6 h)使总胶原蛋白及不溶性胶原蛋白含量极显著降低,可溶性胶原蛋白含量与溶解性极显著升高(P<0.01)。SEM显示其纤维网络从致密结构转变为疏松多孔的变性结构;UV与FTIR进一步证实胶原蛋白分子构象发生改变、氢键网络增强;CD分析显示负吸收峰红移,表明三螺旋结构部分松弛或解旋,为水分子提供了更多结合位点。此外,表面疏水性在30%膨胀率时达到峰值,LF-NMR证实膨胀后水分含量显著增加,保水性能增强。综上,膨胀处理通过诱导胶原蛋白形成多孔结构、松弛分子构象并增强氢键作用等多尺度协同变化,最终实现吸水、保水和嫩度的同步优化。本研究可为精准优化无骨鸡爪加工工艺、提升产品附加值提供理论依据。

关键词: 无骨鸡爪;胶原蛋白;膨胀处理;氢键重构;质构特性;水合特性

Abstract: To investigate the mechanism by which swelling treatment improves the quality of boneless chicken feet, this study systematically analyzed the dynamic changes in collagen content and structure during swelling. The physicochemical properties and texture of chicken feet were analyzed after swelling and marination. Collagen was extracted at different swelling ratios (0%–50%) using an acid-enzyme combination method, and its structure was characterized by scanning electron microscopy (SEM), ultraviolet (UV), Fourier transform infrared spectroscopy (FTIR), circular dichroism (CD), and lowfield nuclear magnetic resonance (LF-NMR) spectroscopy. The results showed that after swelling and marination, the moisture content and L* value of chicken feet increased initially and then decreased, while the centrifugal loss increased significantly. The shear force, hardness, and chewiness decreased significantly, whereas the springiness increased notably (P < 0.05). Swelling treatment (at 30 ℃ and pH 3.2 for 6 h) significantly decreased the content of total collagen and insoluble collagen, while increasing the content and solubility of soluble collagen (P < 0.01). SEM revealed that the fibrous network changed from a dense structure to a loose, porous, denatured morphology. UV and FTIR spectra further confirmed conformational changes in collagen molecules, along with the formation of a strengthened hydrogenbond network. CD analysis showed a red shift of the negative absorption peak, indicating partial relaxation or unwinding of the triplehelix structure, which provided more binding sites for water molecules. Moreover, surface hydrophobicity peaked at a 30% swelling ratio, and LF-NMR confirmed a significant increase in water content after swelling, indicating enhanced water retention capacity. In summary, swelling treatment can simultaneously improve water absorption, water retention, and tenderness by inducing multiscale synergistic changes in collagen, such as forming a porous structure, relaxing molecular conformation, and strengthening hydrogen bonding. These findings provide a theoretical foundation for the precise optimization of processing technologies aimed at increasing the added value of boneless chicken claws products.

Key words: boneless chicken feet; collagen; swelling treatment; hydrogen bond reconstruction; textural properties; hydration characteristics

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