Research Progress on Protein Additives for Enhancing Gel Properties of Meat Products

被引:1
|
作者
Li Z. [1 ]
Yan R. [1 ]
Wang X. [2 ]
Hu Z. [1 ]
Cai T. [4 ]
Zhen Z. [1 ]
机构
[1] College of Food Engineering, Anhui Science and Technology University, Chuzhou
[2] Huoqiu County Animal Health Supervision Institute, Lu’an
[3] Lu’an Longxiang Gourmet Poultry Co. Ltd., Lu’an
[4] Anhui Yangfu Jin Seasoning Food Co. Ltd., Huaibei
来源
Shipin Kexue/Food Science | 2024年 / 45卷 / 07期
关键词
combination; gel properties; gelation mechanism; meat products; protein additives;
D O I
10.7506/spkx1002-6630-20230729-327
中图分类号
学科分类号
摘要
Gelation, an important quality attribute of meat products, significantly influences the appearance, flavor, and texture of meat products. Enhancing gelation in meat products holds immense importance in improving the production process and the quality. The gel properties of meat products are influenced by the content and structure of protein aggregates and the aggregation rate during processing. Protein additives have the potential to partially replace myofibrillar proteins in gelation and emulsification properties, leading to cost reduction, and therefore have attracted much research interest for the development of new meat products and the optimization of the processing technology. This paper summarizes recent studies on the gelation mechanism of myofibrillar proteins, and reviews the properties and applications of the major protein additives as well as recent progress in using protein additives combined with polysaccharide colloids, enzymes or phosphates to enhance the gelation of meat products. This review may serve as a valuable reference for enhancing the quality of gel-type meat products. © 2024 Chinese Chamber of Commerce. All rights reserved.
引用
收藏
页码:348 / 357
页数:9
相关论文
共 67 条
  • [1] YANG X, LI A Q, LI D, Et al., Applications of mixed polysaccharide-protein systems in fabricating multi-structures of binary food gels: a review, Trends in Food Science and Technology, 109, pp. 197-210, (2021)
  • [2] FERRY J D., Protein gels 11 supported in part by the research committee of the graduate school of the university of wisconsin from funds supplied by the wisconsin alumni research foundation, Advances in protein chemistry, pp. 1-78, (1948)
  • [3] XIONG Y L, BLANCHARD S P, OOIZUMI T, Et al., Hydroxyl radical and ferryl-generating systems promote gel network formation of myofibrillar protein, Journal of Food Science, 75, 2, pp. C215-C221, (2010)
  • [4] NICOLAI T., Gelation of food protein-protein mixtures, Advances in Colloid and Interface Science, 270, pp. 147-164, (2019)
  • [5] CHEN N N, CHASSENIEUX C, NICOLAI T., Kinetics of NaCl induced gelation of soy protein aggregates: effects of temperature, aggregate size, and protein concentration, Food Hydrocolloids, 77, pp. 66-74, (2018)
  • [6] CANDO D, HERRANZ B, BORDERIAS A J, Et al., Different additives to enhance the gelation of surimi gel with reduced sodium content, Food Chemistry, 196, pp. 791-799, (2016)
  • [7] GE Q F, WU Y H, YUAN N, Et al., Effect of high-pressure homogenization-modified soy 11S globulin on the gel and rheological properties of pork myofibrillar protein, Foods, 12, 4, (2023)
  • [8] MENG S, CHANG S, GILLEN A M, Et al., Protein and quality analyses of accessions from the USDA soybean germplasm collection for tofu production, Food Chemistry, 213, pp. 31-39, (2016)
  • [9] MOLINA ORTIZ S E, PUPPO M C, WAGNER J R., Relationship between structural changes and functional properties of soy protein isolates-carrageenan systems, Food Hydrocolloids, 18, 6, pp. 1045-1053, (2004)
  • [10] MATSUMIYA K, MURRAY B S., Soybean protein isolate gel particles as foaming and emulsifying agents, Food Hydrocolloids, 60, pp. 206-215, (2016)
1234567