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  • EI
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中國精品科技期刊2020
黃麗金,聞怡凡,羅美玲,等. 提取溫度對烏魚魚鱗明膠功能性質和結構特性的影響[J]. 食品工業科技,2024,45(9):83?90. doi: 10.13386/j.issn1002-0306.2023060092.
引用本文: 黃麗金,聞怡凡,羅美玲,等. 提取溫度對烏魚魚鱗明膠功能性質和結構特性的影響[J]. 食品工業科技,2024,45(9):83?90. doi: 10.13386/j.issn1002-0306.2023060092.
HUANG Lijin, WEN Yifan, LUO Meiling, et al. Effect of Extraction Temperature on the Functional and Structural Properties of Mullet Scale Gelatin[J]. Science and Technology of Food Industry, 2024, 45(9): 83?90. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060092.
Citation: HUANG Lijin, WEN Yifan, LUO Meiling, et al. Effect of Extraction Temperature on the Functional and Structural Properties of Mullet Scale Gelatin[J]. Science and Technology of Food Industry, 2024, 45(9): 83?90. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060092.

提取溫度對烏魚魚鱗明膠功能性質和結構特性的影響

Effect of Extraction Temperature on the Functional and Structural Properties of Mullet Scale Gelatin

  • 摘要: 功能性質是衡量魚明膠品質的重要因素,直接關系著魚明膠的實際應用范圍和價值。為探究提取溫度對烏魚魚鱗明膠功能性質的影響,本研究以烏魚魚鱗為原料,采用熱水法提取明膠,考察了不同溫度(60、70、80、90、100 ℃)提取對魚鱗表面形態、魚鱗明膠得率、功能性質(起泡性、乳化性、凝膠強度、凝膠溫度、膠融溫度)的影響,并進一步通過SDS-PAGE、傅里葉變換紅外光譜、掃描電鏡探究魚鱗明膠的結構特性。結果表明:當提取溫度從60 ℃逐步升高到100 ℃,烏魚魚鱗表面的破損越來越嚴重,魚鱗明膠得率從31.72%增加到50.97%,起泡能力從23.33%提升至73.33%,乳化活性從15.13 m2/g增長到17.27 m2/g,而凝膠強度、凝膠溫度、膠融溫度則從677.82 g、20.80 ℃、28.70 ℃分別降低至372.91 g、15.80 ℃、23.90 ℃。此外,隨著提取溫度的提升,電泳圖中烏魚魚鱗明膠α1、α2、β鏈三條特征帶逐漸模糊,紅外光譜結果表明魚鱗明膠都具有特征吸收峰(酰胺A、酰胺Ⅰ、酰胺Ⅱ、酰胺Ⅲ)且酰胺A帶波數先升高后降低,掃描電鏡結果顯示魚鱗明膠多孔網格結構的緊密程度降低。上述研究結果可為烏魚魚鱗明膠產業化提供理論依據。

     

    Abstract: The functional property is an important factor to measure the quality of fish gelatin, which directly relates to the practical application range and value of fish gelatin. In order to explore the effect of extraction temperature on the functional properties of mullet scale gelatin, this study used a hot water extraction method. Different temperatures (60, 70, 80, 90, 100 ℃) were examined to assess their impact on the surface morphology of fish scales, fish scale gelatin yield, and functional properties (foaming capacity, emulsifying activity, gel strength, gel temperature, and melting temperature). Furthermore, the structural characteristics of fish scale gelatin were investigated using SDS-PAGE, Fourier transform infrared spectroscopy, and scanning electron microscopy. The results showed that as the extraction temperature increased from 60 ℃ to 100 ℃, the damage to the surface of mullet scales became increasingly severe. The fish scale gelatin yield increased from 31.72% to 50.97%, foaming capacity improved from 23.33% to 73.33%, and emulsifying activity increased from 15.13 m2/g to 17.27 m2/g. However, gel strength, gel temperature, and melting temperature decreased from 677.82 g, 20.80 ℃, and 28.70 ℃ to 372.91 g, 15.80 ℃, and 23.90 ℃, respectively. Additionally, with the increase in extraction temperature, the characteristic bands of mullet scale gelatin α1, α2, and β chains on the electrophoresis pattern became increasingly blurred. The infrared spectroscopy results showed that the fish scale gelatin had characteristic absorption peaks (amide A, amide Ⅰ, amide Ⅱ, and amide Ⅲ), with the wavenumber of amide A first increasing and then decreasing. The scanning electron microscopy results showed that the tightness of the porous grid structure of the fish scale gelatin decreased. These findings provide a theoretical basis for the industrialization of mullet scale gelatin.

     

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