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Functionalising insoluble pea protein aggregates using high-pressure homogenisation: Effects on physicochemical, microstructural and functional properties

Publication |
2022

Abstract

Commercial plant protein isolates contain a large fraction of non-functional proteins due to the harsh processing conditions used. Therefore, greater value can be unlocked by functionalising these "inert" plant proteins.

Using commercial insoluble pea protein isolate (I-PPI) as an example, this study demonstrates the application of high-pressure homogenisation (HPH) as a physical method to improve the techno-functionality of I-PPI. The disper-sions were HPH-treated at 60, 120, or 180 MPa for one, three, and five pressure cycles.

HPH treatments resulted in decreased particle size (from 16.7 +/- 1.3 to 9.4 +/- 0.2 µm at 60 MPa) and increased zeta-potential. Microstruc-tural observations revealed the formation of smaller aggregate clusters and flake-like structures after HPH treatments.

The protein solubility of I-PPI (15.9 +/- 2.0 %) under acidic conditions (pH 2) significantly increased at all HPH treatment levels, with the greatest increase at 120 MPa for 5 passes (27.2 +/- 2.0 %). Remarkably, the non-gelling I-PPI was able to form self-standing gels (15 % w/w) after HPH treatments, with the greatest gel strength observed at 180 MPa.

The emulsifying and foaming stability of HPH-treated I-PPI increased from 60 to 120 MPa but decreased at 180 MPa. Overall, our results demonstrate a key paradigm in protein modification: transforming insoluble plant proteins into functional protein ingredients.