Journal
JOURNAL OF THE AMERICAN OIL CHEMISTS SOCIETY
Volume 89, Issue 2, Pages 301-312Publisher
WILEY
DOI: 10.1007/s11746-011-1909-6
Keywords
Sodium bisulfite; Soy protein adhesive; Water resistance; Viscous cohesive; Thermal properties; Rheological properties; Morphological properties
Categories
Funding
- Office Of The Director
- Office of Integrative Activities [903806] Funding Source: National Science Foundation
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Successful industrial applications of soy protein adhesives require high adhesion strength and low viscosity at high solid protein concentration. This study examined the effects of beta-conglycinin (7S) and glycinin (11S) ratios on the physicochemical properties of soy protein adhesives. Soy protein adhesives with various 7S/11S ratios were extracted from soy flour slurry modified with sodium bisulfite using the acid precipitation method, which is based on the different solubilities of 7S and 11S globulins. Seven glycinin-rich soy protein fractions and six beta-conglycinin-rich soy protein fractions were obtained. The external morphology of the samples changed from the viscous cohesive phase to the clay-like phase without cohesiveness. The viscous cohesive samples had good flowability and good water resistance with a wet adhesion strength of 2.0-2.8 MPa. They were stable for up to several months without phase separation at room temperature. Based on the results, we suggest that proper proteinprotein interaction, hydration capacity (glycinin-rich soy protein fractions), and certain ratios of 7S and 11S (beta-conglycinin rich soy protein fractions) in the soy protein sample are crucial to continuous protein phase formation. Hydrogen bonding, electrostatic forces, and hydrophobic interactions are involved in maintaining the protein viscous cohesive network, whereas disulfide bonds do not exert significant effects. This study describes a new way to investigate viscous cohesive soy protein systems with high solid protein content, thus alleviating the disadvantages of traditional methods for studying the adhesive properties of soy protein isolates, which tend to have poor water resistance, low solid contents, and short storage life.
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