The structural rearrangement and depolymerisation induced by high‐pressure homogenisation inhibit the thermal aggregation of myofibrillar protein

Abstract

SummaryThe effects of heating on the dissolution and aggregation of high‐pressure homogenisation (HPH)‐treated myofibrillar protein (MP) in low ionic strength medium were investigated in this study. Upon heating, HPH‐treated MP (HTMP) had a greater solubility and lower turbidity than control MP (P < 0.05). The rheological measurement exhibited that the thermal aggregation ability of HTMP was hampered due to lower storage modulus (G′) and loss modulus (G″), except near 50 °C. The increased G′ and G″ of HTMP at near 50 °C could be attributed to structural rearrangement induced by HPH. The analysis of proteomics indicated that HPH destroyed the cytoskeletal proteins in myofibrillar structure, made MP structure more swollen and flexible, promoted MP rearrangement and formation of oligomers with higher negative charge, which produced stronger steric hindrance and electrostatic repulsion between molecules, thus inhibiting thermally induced MP aggregation. The depolymerisation effect induced by HPH destroyed myosin head and tail portion, hampered the assembly of myosin into filaments and therefore suppressed the formation of strand‐type aggregates under heating. The in vitro digestion suggested that the depolymerisation and rearrangement effect significantly improved MP digestibility (P < 0.05) regardless of whether the protein was heat treated or not.