Assessment and distinction of commercial soy protein isolate product functionalities using viscosity characteristic curves 被引量：1

Assessment and distinction of commercial soy protein isolate product functionalities using viscosity characteristic curves

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摘要 To simplify the assessment method of soy protein isolate （SPI） functionalities, the viscosity and functionalities of commercial SPI products were studied. Viscosity value （y） increases With increasing concentration （x） and exhibits a highly significant correlation with the exponential equation y = a. ebx. The b values of products are gradually enhanced from dispersion, emulsion and injected to gel type. Products with low b values （〈0.2）, and high dispersivity were dispersion-type. Products having high b values （〉0.4） and gel springiness were gel-type. The other products with centered b value （0.2-0.4）, high solubility and emulsifying capacity were emulsion-type. To simplify the assessment method of soy protein isolate （SPI） functionalities, the viscosity and functionalities of commercial SPI products were studied. Viscosity value （y） increases With increasing concentration （x） and exhibits a highly significant correlation with the exponential equation y = a. ebx. The b values of products are gradually enhanced from dispersion, emulsion and injected to gel type. Products with low b values （〈0.2）, and high dispersivity were dispersion-type. Products having high b values （〉0.4） and gel springiness were gel-type. The other products with centered b value （0.2-0.4）, high solubility and emulsifying capacity were emulsion-type.

作者 Jing Ting Xu He Liu Jian Hua Ren Shun Tang Guo

机构地区 College of Food Science&Nutritional Engineering

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2012年第9期1051-1054,共4页 中国化学快报（英文版）

基金 supported by the National Key Technologies Research and Development Program(No. 2012BAD34B04) Ministry of Science and Technology of the People's Republic of China

关键词 Soy protein isolate Functional properties Viscosity curve Soy protein isolate Functional properties Viscosity curve

分类号 TS214.2 [轻工技术与工程—粮食、油脂及植物蛋白工程] TS245.1 [轻工技术与工程—制糖工程]

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1J.E. Kinsella, J. Am. Oil Chern. Soc. 56 (1979) 242.
2A.A. Heywood, D.J. Myers, T.B. Bailey, et al, J. Am. Oil Chern. Soc. 79 (2002) 1249.
3N.A. Deak, L.A. Johnson, J. Am. Oil Chern. Soc. 84 (2007) 259.
4E.B. Babiker, Food Chern. 70 (2000) 1139.
5A. Achouri, W. Zhang, S.Y. Xu, Food Res. Int. 31 (1998) 617.
6S. Petruccelli, M.e. Anon, J. Agric. Food Chern. 43 (1995) 3035.
7M.C.L. de Ogare, M.D. de Layno, A.M. Pllosof, et al. J. Am. Oil Chern. Soc. 69 (1992) 18(5.

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2石彦国,李刚,胡春林,赵嘉盈.大豆浸泡过程质构变化及其对豆腐质量的影响[J].食品科学,2006,27(12):167-169. 被引量：15
3Ion-Titapiccolo G, Alexander M, Corredig M.Heating of Milk Before or After Homogeniza tion Changes its Coagulation Behaviour During Acidification[J]. Food Biophysics, 2013, 8(2): 81-89.
4Cai T, Chang K C. Processing effect on soy bean storage proteins and their relationship with tofu quality[J]. Journal of agricultural and food chemistry, 1999, 47(2): 720-727.
5Puppo M C, Anon M C. Structural properties of heat-induced soy protein gels as affected by ionic strength and pH[J]. Journal of Agricultur al and Food Chemistry, 1998, 46(9): 3583- 3589.
6唐璐.豆乳中各成分存在状态对豆乳粉溶解性的影响[D].中国农业大学,2008.
7Alting A C, Weijers M, de Hoog E H A, et al. Acid-induced cold gelation of globular proteins: effects of protein aggregate characteristics and disulfide bonding on rheological properties[J]. Journal of agricultural and food chemistry, 2004, 52(3): 623-631.
8Wang R, Xie L, Guo S. Effects of small molec ular compounds in soymilk on the protein coag ulation process: Ca2+ as coagulant[J]. Food Re search International, 2015, 1-9.
9Toda K, Chiba K, Ono T. Effect of components extracted from okara on the physicochemical properties of soymilk and tofu texture[J]. Jour nal of food science, 2007, 72(2): C108-C113.
10李里特,曹薇.不同浸泡方法对豆腐加工的影响[J].食品工业科技,1998,19(3):17-19. 被引量：5

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Chinese Chemical Letters

2012年第9期

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Assessment and distinction of commercial soy protein isolate product functionalities using viscosity characteristic curves 被引量：1

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