Your search keyword '"rapeseed protein"' showing total 2 results

1. Molecular regulation of rapeseed protein for improving its techno-functional properties.

Author

Shao, Feng, Zhang, Yuanlong, Wan, Xia, Duan, Yuqing, Cai, Meihong, Hu, Kai, and Zhang, Haihui

Abstract

To improve the techno-functional properties of rapeseed protein (RP), this work tried to regulate the molecular structure of RP via inducing the co-assembly of RP with zein and whey protein (WP). The results showed that WP and zein mainly regulate the folding process of RP through hydrophobic and disulfide bonds, thereby altering the structural conformation and forming stable complex RP (CRP). WP addition not only increased the number of surface charges and hydrophilicity of proteins, but also decreased their sizes, improved the water solubility, as well as the availability of active groups. These changes significantly increased the foaming capacity (from 60 % to 147 %) and in vitro gastric digestion rate (from 10 % to 60 %) of CRP. Besides, WP also contributed to the formation of gels and the regulation of their textural profiles. Comparatively, zein improved the hydrophobicity of CRP and balanced degree of intermolecular forces, which effectively increased the emulsifying activity index of CRP from 22 m2/g to 90 m2/g. Zein decreased the hardness, springiness and water-holding capacity of gel, but increased its gumminess and chewiness. Overall, both WP and zein effectively changed the structural conformation of RP, and improved its techno-functional properties, which provides an effective strategy to modify protein. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

2. Understanding the mechanism for sodium tripolyphosphate in improving the physicochemical properties of low-moisture extrusion textured protein from rapeseed protein and soybean protein blends.

Author

Zhang, Yuanlong, Shao, Feng, Wan, Xia, Zhang, Haihui, Hu, Kai, Cai, Meihong, and Duan, Yuqing

Subjects

*SODIUM tripolyphosphate, *SOY proteins, *RAPESEED, *MOLECULAR structure, *DENATURATION of proteins, *SOYBEAN

Abstract

Our previous experiments found that rapeseed protein (RP) has applicability in low-moisture textured proteins. The amount of RP added is limited to <20 %, but the addition of 20 % RP still brings some negative effects. Therefore, in order to improve the quality of 20%RP textured protein, this experiment added different proportions of sodium tripolyphosphate (STPP) to improve the quality of the product, and studied the physical-chemical properties and molecular structure changes of the product to explore the possible modification mechanism. The STPP not only improved the expansion characteristics of extrudates, but also increased the brightness of the extrudates, the rehydration rate. In addition, STPP increased the specific mechanical energy during extrusion, decreased the material mass flow rate. Furthermore, STPP decreased the starch digestibility, increased the content of slow-digesting starch and resistant starch. STPP increased the degree of denaturation of extrudate proteins, the proportion of β-sheets in the secondary structure of proteins, as well as the intermolecular hydrogen bonding interactions. The gelatinization degradation degree of starch molecules also decreased with the addition of STPP. STPP also increased the protein-starch interactions and enhanced the thermal stability of the extrudate. All these indicate that STPP can improve the physical-chemical properties of extrudate. • The addition of STPP improve the physical properties of the textured protein supplemented with 20 % rapeseed protein. • The addition of STPP increases the viscosity of the melt and increases the mechanical shear action. • STPP change the molecular properties of the protein and starch components of the extrusion process. • STPP decreased the hydrolysis rate of starch components and increased the proportion of resistant starch. [ABSTRACT FROM AUTHOR]

Published

2024