Investigation into the physiochemical properties of soy protein isolate and concentrate powders from different manufacturers

Abstract: SummaryThe physiochemical properties of five commercially available soy protein isolates (SPI) from different manufacturers and one soy protein concentrate were analysed. Despite their identical botanical origin and an almost interchangeable molecular weight profile, remarkable differences were revealed in their solubility, protein dispersibility index (PDI), water holding capacity (WHC), zeta potential (measured at different pHs) and particle size distribution. Protein solubility and PDI values, which can be … Show more

“…A smaller average particle size of SPH−SL results in a higher surface−to−volume ratio, leading to greater separation pressure for the colloidal particles and promoting the dispersion of the protein. This separation pressure is determined by the attractive force between water and particles divided by their area [ 31 ]. Moreover, a reduction in the average particle size of SPH–SL enhances the probability of protein–water interaction, consequently enhancing the solubility of the protein [ 32 ].…”

“…Regarding this, the phenomenon of zeta potential is consistent with that of particle size and turbidity. Furthermore, the more negative charge of SPH−SL could mean that SPH−SL would have stronger protein−water interactions, thereby improving solubility [ 31 ].…”

Commercial Production of Highly Rehydrated Soy Protein Powder by the Treatment of Soy Lecithin Modification Combined with Alcalase Hydrolysis

“…A smaller average particle size of SPH−SL results in a higher surface−to−volume ratio, leading to greater separation pressure for the colloidal particles and promoting the dispersion of the protein. This separation pressure is determined by the attractive force between water and particles divided by their area [ 31 ]. Moreover, a reduction in the average particle size of SPH–SL enhances the probability of protein–water interaction, consequently enhancing the solubility of the protein [ 32 ].…”

“…Regarding this, the phenomenon of zeta potential is consistent with that of particle size and turbidity. Furthermore, the more negative charge of SPH−SL could mean that SPH−SL would have stronger protein−water interactions, thereby improving solubility [ 31 ].…”

Commercial Production of Highly Rehydrated Soy Protein Powder by the Treatment of Soy Lecithin Modification Combined with Alcalase Hydrolysis