Abstract:In this study, 2 mT low magnetic field (LMF), 0 mT magnetic field (NMF), and conventional freezing (CF) were used to conduct a 28-day freezing experiment on myofibrillar proteins of silver carp muscle. Changes in the structure and functional properties of the proteins were investigated by measuring surface hydrophobicity, sulfhydryl content, solubility, turbidity, thermal stability, Fourier transform infrared (FTIR) spectra, endogenous fluorescence spectra, and ultraviolet (UV) absorption spectra. The results showed that the application of LMF freezing could inhibit protein aggregation, exposure of interior hydrophobic groups, and α-helix unfolding, weaken α-helix to β-sheet transition and maintain good secondary and tertiary structure stability. There was no significant difference in total sulfhydryl content, solubility, or turbidity between the CF and NMF groups. As it provided lower freezing temperatures, CF inhibited the aggregation of proteins and the exposure of interior hydrophobic groups, but simultaneously made the protein structure sparse and unstable. Compared with CF, LMF freezing could better protect and improve protein structure and function. Overall, LMF freezing can inhibit protein denaturation and maintain good protein structure and function. Compared with CF (?30 ℃), LMF freezing (?20 ℃, 2 mT) has the potential for energy saving.
逯晓燕,刘 丽,黄文哲,丛海花,李 昊. 低磁场冷冻对鲢鱼肌原纤维蛋白的作用[J]. 肉类研究, 2022, 36(6): 1-8.
LU Xiaoyan, LIU Li, HUANG Wenzhe, CONG Haihua, LI Hao. Effect of Low Magnetic Field Freezing on Structural and Functional Properties of Myofibrillar Proteins in Silver Carp Muscle. Meat Research, 2022, 36(6): 1-8.
2022, Vol. 36 
