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Enhanced gelling properties of myofibrillar protein by ultrasound-assisted thermal-induced gelation process: Give an insight into the mechanism

Qingling Wang, Chen Gu, Ranran Wei, Yi Luan, Rui Liu, Qingfeng Ge, Hai Yu, Mangang Wu

2023Ultrasonics Sonochemistry61 citationsDOIOpen Access PDF

Abstract

Effects of the incorporation of ultrasound with varied intensities (0-800 W) into the thermal-induced gelation process on the gelling properties of myofibrillar protein (MP) were explored. In comparison with single heating, ultrasound-assisted heating (<600 W) led to significant increases in gel strength (up to 17.9%) and water holding capacity (up to 32.7%). Moreover, moderate ultrasound treatment was conducive to the fabrication of compact and homogenous gel networks with small pores, which could effectively impair the fluidity of water and allow redundant water to be entrapped within the gel network. Electrophoresis revealed that the incorporation of ultrasound into the gelation process facilitated more proteins to get involved in the development of gel network. With the intensified ultrasound power, α-helix in the gels lowered pronouncedly with a simultaneous increment of β-sheet, β-turn, and random coil. Furthermore, hydrophobic interactions and disulfide bonds were reinforced by the ultrasound treatment, which was in support of the construction of preeminent MP gels.

Topics & Concepts

MyofibrilUltrasoundChemical engineeringRandom coilThermalFabricationProcess (computing)Materials scienceChemistryProtein secondary structureBiochemistryComputer sciencePhysicsPathologyAlternative medicineMedicineEngineeringAcousticsMeteorologyOperating systemMeat and Animal Product QualityProteins in Food SystemsMuscle metabolism and nutrition
Enhanced gelling properties of myofibrillar protein by ultrasound-assisted thermal-induced gelation process: Give an insight into the mechanism | Litcius