4.7 Article

Oxidized cellulose nanofibrils-based surimi gel enhancing additives: Interactions, performance and mechanisms

期刊

FOOD HYDROCOLLOIDS
卷 133, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.107893

关键词

Cellulose nanofibrils; TEMPO-mediated oxidation; Surimi gels; Cellulose-protein interactions; Gelation; Mechanisms

资金

  1. National Key R&D Program of China [2020YFD0900900]
  2. Science and Technology Planning Project of Zhoushan of China [2022C41001]
  3. Basic Scientific Research Funds of Zhejiang Provincial Universities [2021JZ007]

向作者/读者索取更多资源

By introducing cellulose nanofibrils as a textural enhancer, the properties of surimi gels have been improved, including whiteness, microstructure, water holding capacity, gel strength, and thermal stability.
Surimi-based products with preferred textural properties and high nutritional value are fashionable throughout the market. Enhancing surimi gel characteristics is of key importance for enabling the following processing and warranting the end-product quality, but challenging due to the lack of energy- and performance-efficient processes and the elusive mechanisms underpinned such enhancements. Focusing on enhancing surimi gel properties by introducing sustainable additives, we successfully explore functionalized cellulose nanofibrils as a textural enhancer in surimi gels and establish a new model to expound the interaction mechanisms. Firstly, TEMPO-mediated oxidation prior to homogenization harvests functionalized cellulose nanofibrils with unique fibrillary shape, uniform nano-size, high surface hydrophilicity and activated -COO- groups, highly suited for the additive use in surimi gels (Monto et al., 2021). Secondly, the innovative application of oxidized cellulose nanofibrils at a remarkably low concentrations (0.1 g/100 g surimi) greatly improve the whiteness, microstructure, water holding capacity, gel strength and thermal stability of the surimi gels, through a synergistic effect of matrix-reinforcing, water binding and entrapping, covalent interactions (disulfide bonds, amide bonds), non-covalent interactions (hydrogen bonds, ionic bonds) and favorable protein conformational changes within the network. Next, a new mechanism model toward the high-performance surimi gels is concluded to better elucidate the interactions between oxidized cellulose nanofibrils and myosin molecules. We expect that this work can provide guidelines on designing novel and high-quality cellulose-additive foods and understanding the roles of food additives in meat gel systems, for advancing the applications of new additives and gelation mechanisms in the food industry.

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