Advances in the gel preparation and its affecting factors of soybean protein

被引:0
|
作者
Zhu X. [1 ]
Deng X. [1 ]
Zhu Y. [1 ]
Wang X. [2 ]
Li Y. [3 ]
Xia X. [1 ,4 ]
机构
[1] College of Food Engineering, Harbin University of Commerce, Key Laboratory of Grain Food and Comprehensive Processing of Grain Resource of Heilongjiang Province, Harbin
[2] Food Science College of Northeast Agricultural University, Harbin
[3] Harbin Central Red Group Co., Ltd, Harbin
[4] Soybean Research Institute, Heilongjiang Academy of Agricultural Sciences, Harbin
来源
Science and Technology of Food Industry | 2023年 / 44卷 / 06期
关键词
11S; 7S; Gel; Heat treatment; Soybean protein isolate;
D O I
10.13386/j.issn1002-0306.2022030372
中图分类号
学科分类号
摘要
As one of the important food crops in China, soybean has a high nutritional value. Gelation is of great interest as an important functional property of soybean isolate proteins. Soy protein is mostly used as an encapsulation carrier for a variety of complexes such as water molecules, sugars, lipids and unstable small molecule active substances in products, but the natural gel products of soy protein have problems such as loose structure and low yield, which greatly limits the application and development of its gel products. In this paper, the mechanism of gel formation from soy protein isolates is analyzed, and the intrinsic influencing factors such as soy protein conformation and composition, polysaccharide and lipid interactions and ionic strength, as well as the influence of external factors such as physical, chemical and biological factors on gel formation are discussed in depth and systematically analysed, with a view to providing a theoretical basis for the processing and utilization of soy protein gel products in the future. © 2023, Editorial Department of Science and Technology of Food Science. All rights reserved.
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页码:405 / 414
页数:9
相关论文
共 93 条
  • [1] YAGHOUBI M, MOZANZADEH M T, MARAMMAZI J G, Et al., Dietary replacement of fish meal by soy products(soybean meal and isolated soy protein) in silvery-black porgy juveniles (Sparidentex hasta)[J], Aquaculture, 6, pp. 50-59, (2016)
  • [2] ZENG J H, YANG Y, LIU L L, Et al., Research progress on dissociation association behavior of soybean 11S globulin during heat treatment[J], Food Science, 40, 11, pp. 303-312, (2019)
  • [3] SU Y, DONG Y, NIU F, Et al., Study on the gel properties and secondary structure of soybean protein isolate/egg white composite gels[J], European Food Research and Technology, 2, pp. 367-378, (2014)
  • [4] WAN Y, LIU J, GUO S, Et al., Effects of succinylation on the structure and thermal aggregation of soy protein isolate[J], Food Chemistry, 245, pp. 542-550, (2018)
  • [5] WANG R, GUO S., Effects of endogenous small molecular compounds on the rheological properties, texture and microstructure of soymilk coagulum: Removal of phytate using ultrafiltration[J], Food Chemistry, 211, pp. 521-529, (2016)
  • [6] TAN H., Effect of high pressure treatment on functional characteristics and structure of soybean protein isolate-polysaccharide system, (2015)
  • [7] TAHA A, AHMED E, HU T, Et al., Effects of different ionic strengths on the physicochemical properties of plant and animal proteins-stabilized emulsions fabricated using ultrasound emulsification[J], Ultrasonics Sonochemistry, 58, (2019)
  • [8] DICKINSON E., Food emulsions and foams: Stabilization by particles[J], Current Opinion in Colloid and Interface Science, 15, 1-2, pp. 40-49, (2010)
  • [9] SCHREUDERS F K G, DEKKERS B L, BODNAR I, Et al., Comparing structuring potential of pea and soy protein with gluten for meat analogue preparation[J], Journal of Food Engineering, 261, pp. 32-39, (2019)
  • [10] WANG R, LIU J, GUO S, Et al., Binding of phytate to soybean protein during the heat treatment of soymilk and its effect on protein aggregation[J], Food Hydrocolloids, 84, pp. 368-378, (2019)
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