Interfacial Properties of Pea Protein Hydrolysate: The Effect of Ionic Strength

The effect of a tryptic hydrolysis as well as the effect of ionic strength (0-0.4 M NaCl) was investigated on the oil/water interfacial properties of soluble pea protein hydrolysate (SPPH) at neutral pH and room temperature (20 +/- 0.01 degrees C). SEC-MALS and SDS-Page analysis showed that tryptic hydrolysis created a lower molecular weight polypeptide mixture, whereas FTIR analysis and DSC thermograms demonstrated a more disordered and flexible structure. The bulk properties of SPPH were studied in terms of hydrodynamic diameter and turbidity, where higher particle size (+ similar to 13 nm) and turbidity were observed at 0.4 M NaCl. Regarding the interfacial properties, the surface activity of SPPH improved by increasing ionic strength, with maximum interfacial pressure (14.28 mN/m) at 0.4 M NaCl. Nevertheless, the addition of NaCl negatively affected the elasticity and strength of the interfacial film, where the sample without salt exhibited the highest dilatational and shear storage modulus in all the frequencies considered.

Automated summary

This study investigates the effect of tryptic hydrolysis and ionic strength on the oil/water interfacial properties of soluble pea protein hydrolysate (SPPH). The results show that tryptic hydrolysis leads to the creation of lower molecular weight polypeptides and a more disordered and flexible structure. In terms of bulk properties, higher particle size and turbidity are observed at 0.4 M NaCl. However, the addition of NaCl negatively affects the elasticity and strength of the interfacial film.