Thickening mechanism of recombined dairy cream stored at 4 °C: Changes in the composition and structure of milk protein under different sterilization intensities

• Published in: International journal of biological macromolecules Vol. 227; pp. 903 - 914
• Main Authors: Wang, Shiran, Li, Yang, Yan, Guosen, Yuan, Dongdong, Ji, Baoping, Zhou, Feng, Li, Yan, Zhang, Liebing
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.02.2023
• Subjects: Caseins; Cold Temperature; Hot Temperature; Milk protein; Milk Proteins; Recombined dairy cream; Sterilization; Sterilization intensity; Whey Proteins - chemistry; UHT; SSA; MPC; β-CN; α-CN; κ-CN; MCC; T80; CN-WP; RDC; SDS-PAGE; CCP; Recombined dairy cream; Milk protein; DSC; FTIR; Sterilization intensity; β-LG; WP; MCN; AMF; CLSM; TEM; α-LA
• ISSN: 0141-8130; 1879-0003
• DOI: 10.1016/j.ijbiomac.2022.12.203

This work elucidates the mechanism involved in the effect of varying sterilization intensities on RDC thickening via comparative analysis of the changes in the composition and structure of RDC interfacial protein after storage at 4 °C and at 25 °C. The results showed that pasteurized RDCs (75 °C for 16 s, 90 °C for 5 min) and high-temperature sterilized RDCs (105 °C for 3 min, 115 °C for 7 min and 121 °C for 7 min) did not thicken during storage at 25 °C, and had lower viscosities and higher Ca2+ concentrations than those stored at 4 °C. Whey protein (WP) aggregates were found to have been adsorbed at the interface of high-temperature treated RDCs stored at 4 °C, leading to the aggregation of fat globules and, consequently, reversible thickening. However, high-temperature sterilized RDCs underwent into irreversible thickening at 10 d, 7 d and 3 d. This phenomenon was attributed to the large amount of heat-induced whey protein and κ-casein complex that was absorbed on the oil-water interface, with Ca2+ bonded to form bridging flocculation, which altered the secondary structure of the interfacial protein to one with increased β-sheet content and decreased random coil content. •Thickening rate increased with increasing sterilization intensity.•Reversible thickening was due to the aggregation of fat globules.•Irreversible thickening was associated with interfacial protein flocculation.•More β-sheet and less random coil structure aggravated irreversible thickening.