Effects of High Pressure Modification on Conformation and Digestibility Properties of Oyster Protein.

Runfang Wang,Suisui Jiang,Tietao Zhang,Yuanhui Zhao,Fan Zhang,Xue Feng,Yunsheng Xu,Yujin Li,Mingyong Zeng

doi:10.3390/molecules24183273

Runfang Wang, Suisui Jiang + Show 7 more

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https://doi.org/10.3390/molecules24183273

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Abstract

To expand the utilization of oyster protein (OP), the effects of high pressure (100 to 500 MPa) on chemical forces, structure, microstructure, and digestibility properties were investigated. High pressure (HP) treatment enhanced the electrostatic repulsion (from −13.3Control to −27.8HP200 mV) between protein molecules and avoided or retarded the formation of protein aggregates. In addition, the HP treated samples showed uniform distribution and small particle size. The changes in electrostatic interaction and particle size contributed to the improvement of solubility (from 10.53%Control to 19.92%HP500 at pH 7). The stretching and unfolding of protein were modified by HP treatment, and some internal hydrophobic groups and -SH groups were exposed. HP treatment modified the secondary structure of OP. The treated samples contained less α-helix and β-sheet structures, whereas the proportions of β-sheet and random coil structures were increased. The treated samples have high digestibility in the stomach (from 26.3%Control to 39.5%HP500) and in the total digestive process (from 62.1%Control to 83.7%HP500). In addition, the total digestive production showed higher percentages of small peptides (<1 kDa) after HP treatment. The protein solubility and digestibility were increased after HP treatment, and high solubility and high digestibility might increase the chance that OP become a kind of protein supplement.

Highlights

Oyster is an abundant resource from ocean [1], containing a low content of fat and high content of vitamins and minerals [2]
HP treatment could change the physical by using the zeta potentials of the oyster protein (OP) solutions at pH 7
The that HP treatment could improve the solubility and some other physical properties of the oyster protein, observation was in agreement with Chen et al [11]; the author found that the zeta potential of protein and that it could further improve the functional properties and protein utilization

Summary

Introduction

Oyster is an abundant resource from ocean [1], containing a low content of fat and high content of vitamins and minerals [2]. There are some shortages in conventional water extract method for oyster protein extraction, such as the low extraction rate and complex separation process [4,5]. Some authors have reported the protein extraction technology of isoelectric solubilization/precipitation (ISP); this method could simplify the extraction process and improve the extraction rate with high purity [6]. This method makes protein denaturation, due to extreme pH shifts during ISP, containing poor solubility, emulsifying property, and foaming ability. High-pressure (HP) treatment has seen significant developments, and it is used in the food system to modify the properties of proteins [7,8]. HP treatment could affect the chemical forces between protein molecules; it can increase the surface hydrophobic

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Conclusion