Mechanisms behind protein-protein interactions in a β-lg-legumin co-precipitate

Interactions between pea protein and whey protein isolates in co-precipitates and blends consist of a combination of disulphide bonds, hydrophobic and electrostatic interactions. The present study aims to clarify if the two proteins with free thiols, beta-lactoglobulin (beta-lg) and legumin, played a significant role for these interactions. This study used different reagents to modify the conditions of interactions: N-ethylmaleimide (NEM) was used to block reactive thiols, while NaCl and SDS were used to prevent electrostatic or hydrophobic interactions, respectively. The effects of treatments were studied on protein solubility, structure and stability. SDS had no effect, while NEM and NaCl both had great effect, especially in combination. The results showed that interactions of beta-lg and legumin in both co-precipitates and blends are a synergism of electrostatic interactions and disulphide bonds. Thus, beta-lg and legumin are the main proteins responsible for previously observed interactions in protein isolates of whey and pea.

Automated summary

The interactions between pea protein and whey protein isolates are a synergism of electrostatic interactions and disulphide bonds, with beta-lactoglobulin and legumin playing a significant role. The use of NEM and NaCl reagents significantly impacts these interactions, while SDS has no effect.