Application of Filtration to Recover Solubilized Proteins During pH-Shift Processing of Blue Whiting (Micromesistius poutassou); Effects on Protein Yield and Qualities of Protein Isolates

Helgi Nolsøe, Sofia Marmon, I. Undeland
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引用次数: 17

Abstract

Previous studies of the pH-shift protein isolation process have shown that substantial amounts of solubilized proteins can be trapped in the sediments formed in the first centrifugation step of this process. As a strategy to improve the protein yield during pH-shift processing, the aim of this study was to evaluate how filtration as an alternative to centrifugation in the first separation step of pH-shift processing of blue whiting affected proteins yield and protein isolate characteristics (basic composition, polypeptide profiles, surimi gel quality and color attributes). The study comprised both the acid and alkaline versions of the method, and also fresh as well as frozen fish raw material. Results showed that the replacement of centrifugation with filtration substantially improved the protein yield by from about 38% to 62%, but also reduced the removal of lipid. There were no significant effects on gel quality. Protein isolates from fresh raw material were about 5 % whiter and frozen raw materials about 3% whiter with centrifugation as compared to filtration in the pHshift process. For surimi from fresh raw material centrifugation gave about 2 % whiter gels, while the gels from frozen raw material were about 3% whiter for filtered compared to centrifuged material. The whitest isolates and gels were obtained with acid processing of fresh blue whiting. Slight proteolytic breakdown resulting in fragments of 83 and 152 kDa was however noted with the acid process, especially when centrifugation was used.
过滤技术在蓝白鱼ph移位加工中溶解蛋白回收中的应用对分离蛋白产量和品质的影响
先前对ph位移蛋白分离过程的研究表明,在该过程的第一个离心步骤中形成的沉积物中可以捕获大量的溶解蛋白。作为提高ph移位处理过程中蛋白质产量的策略,本研究的目的是评估在蓝白ph移位处理的第一步中,过滤替代离心对蛋白质产量和分离蛋白特性(基本组成、多肽谱、鱼米凝胶质量和颜色属性)的影响。这项研究包括酸法和碱法两种方法,以及新鲜和冷冻鱼原料。结果表明,用过滤代替离心后,蛋白质得率从38%提高到62%,但也降低了脂质去除率。对凝胶质量无显著影响。与在pHshift过程中过滤相比,从新鲜原料分离的蛋白在离心过程中白约5%,从冷冻原料分离的蛋白在离心过程中白约3%。对于新鲜原料的鱼糜,离心后的凝胶白度约为2%,而冷冻原料过滤后的凝胶白度约为3%。对鲜蓝白进行酸处理,得到了最白的分离物和凝胶。然而,在酸处理过程中,特别是在使用离心时,注意到轻微的蛋白质水解分解导致83和152 kDa的片段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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