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由具有不同二价阳离子的乳清蛋白纳米纤维制成的冷固化水凝胶。

Cold-set hydrogels made of whey protein nanofibrils with different divalent cations.

作者信息

Mohammadian Mehdi, Madadlou Ashkan

机构信息

Department of Food Science and Engineering, University College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran.

Department of Food Science and Engineering, University College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran.

出版信息

Int J Biol Macromol. 2016 Aug;89:499-506. doi: 10.1016/j.ijbiomac.2016.05.009. Epub 2016 May 4.

Abstract

Whey protein nanofibrils are gaining interest to fabricate cold-set hydrogels due to their ability to gel at lower concentrations than parent proteins. In the present research, fibrillated protein solution was gelled with three different divalent cation salts including CaCl2, MnCl2 and ZnCl2 and the textural and functional characteristics of the resulting hydrogel samples were studied. Atomic force microscopy indicated that the flexible micron-scaled fibrils with nanometric thickness (up to 8.0nm) that formed at pH 2.0 underwent breaking in length upon post-formation pH rise to 7.5. Whilst heat-denatured protein solution failed to form self-supporting gel at pH 7.5, fibrillated protein solution gelled by all three types of cations. Fibrillation increased the protein solution consistency coefficient (K) much more than heat denaturation. It was suggested based on Fourier-transform infra-red (FT-IR) spectra that some hydrogen bonds were disrupted by fibrillation. Zn(2+)-induced gel was firmer, had a higher water holding capacity and a more compact microstructure, as well, required a higher compressive stress to fracture than its counterparts. Nonetheless, the Mn(2+)- and Ca(2+)-induced gels disintegrated to a much lesser extent in both pepsin-free and pepsin-present simulated gastric juice than Zn(2+)-induced sample. Chitosan coating approximately halved the simulated degradability of all gel samples.

摘要

乳清蛋白纳米纤维因其在比母体蛋白更低的浓度下就能形成凝胶的能力,在制备冷胶凝水凝胶方面正受到关注。在本研究中,将纤维化蛋白溶液与三种不同的二价阳离子盐(包括氯化钙、氯化锰和氯化锌)进行凝胶化处理,并研究了所得水凝胶样品的质地和功能特性。原子力显微镜显示,在pH 2.0时形成的具有纳米级厚度(最大8.0nm)的柔性微米级纤维在形成后pH升高至7.5时长度会断裂。虽然热变性蛋白溶液在pH 7.5时无法形成自支撑凝胶,但纤维化蛋白溶液能被所有三种类型的阳离子凝胶化。纤维化比热变性更能显著提高蛋白溶液的稠度系数(K)。基于傅里叶变换红外(FT-IR)光谱表明,一些氢键因纤维化而被破坏。锌离子诱导的凝胶更坚固,具有更高的持水能力和更致密的微观结构,并且比其他凝胶需要更高的压缩应力才能断裂。尽管如此,在无胃蛋白酶和有胃蛋白酶的模拟胃液中,锰离子和钙离子诱导的凝胶比锌离子诱导的样品分解程度要小得多。壳聚糖涂层使所有凝胶样品的模拟降解性大约减半。

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