Gelation of Protein Recovered from Whole Antarctic Krill (Euphausia superba) by Isoelectric Solubilization/Precipitation as Affected by Functional Additives

南极磷虾 快感 磷虾 等电点 化学 色谱法 蛋白质水解 变性(裂变材料) 蛋白质沉淀 食品科学 生物化学 生物 渔业 高效液相色谱法 核化学
作者
Yi‐Chen Chen,Jacek Jaczynski
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:55 (5): 1814-1822 被引量:91
标识
DOI:10.1021/jf0629944
摘要

This study demonstrated that the novel isoelectric solubilization/precipitation can be applied to recover functional muscle protein in a continuous mode from whole Antarctic krill. Protein recovered from whole krill had a much lower ash content than whole krill, suggesting good removal of inedible impurities (shell, appendages, etc.). Lipids were retained to a higher degree with krill protein solubilized at acidic rather than basic pH. The viscoelastic modulus (G') showed that recovered krill protein failed to form heat-induced gel unless beef plasma protein (BPP) was added. Therefore, protease inhibitors are suggested for development of krill-derived products. Even with BPP, the G' decreased between 45 and 55 degrees C. However, krill protein solubilized at acidic pH had a higher decrease of the G' than the protein solubilized at basic pH, likely due to krill endogenous cathepsin L. Krill protein-based gels developed from protein solubilized at basic pH, especially pH 12.0, had better texture (torsion and Kramer tests and texture profile analysis) than acidic counterparts, possibly due to higher proteolysis and denaturation at acidic pH. Gels made from protein solubilized at acidic pH were brighter and whiter likely due to a higher lipid content.
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