Ultrasound‐assisted extraction and modification of plant‐based proteins: Impact on physicochemical, functional, and nutritional properties

Ultrasonication is a green technology that has recently received an enormous research attention for extraction of plant‐based proteins and tailoring the functionalities of these ingredients. Ultrasonication is generally used as a pretreatment method in the conventional protein solubilization protoco...

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Bibliographic Details
Published in:Comprehensive reviews in food science and food safety 2021-03, Vol.20 (2), p.1457-1480
Main Authors: Rahman, Md Mahfuzur, Lamsal, Buddhi P.
Format: Article
Language:English
Subjects:
Cavitation
Electrical conductivity
Foaming
Hydrophobic and Hydrophilic Interactions
Hydrophobicity
ingredient functions
molecular structure
nutritional quality
Oxidation
Plant extracts
Plant Proteins
plant‐based protein
Protein interaction
Proteins
Rheology
Slurries
Solubility
Solubilization
Sonication
Structure-function relationships
Ultrasonic imaging
ultrasonic‐assisted extraction (UAE)
Ultrasound
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Summary:Ultrasonication is a green technology that has recently received an enormous research attention for extraction of plant‐based proteins and tailoring the functionalities of these ingredients. Ultrasonication is generally used as a pretreatment method in the conventional protein solubilization protocols because it can break the cell matrix to improve the extractability. The rate of protein extraction and increase in the extraction yields depend on operating conditions such as sonic energy density, time of sonication, the substrate to slurry ratio, agitation, and so on. Ultrasonication is also applied to modify the physical, structural, and functional properties of protein‐based ingredients, besides simultaneous extraction and modifications. Significant changes that occur in protein physical properties due to sonication include size reduction, rheology, electrical conductivity, and zeta (ζ) potential. These changes are due to cavitation‐induced shear leading to changes in secondary and tertiary structures, including protein aggregation and cross‐linking due to oxidation. Physical and structural changes affect the resulting ingredient functionality and nutritional quality of protein. Changes in the functional properties, especially hydrophobicity, solubility, emulsion, and foaming, depend on the extent of ultrasound energy applied to the protein. This study aims to review major ultrasound process parameters and conditions for extraction and modification of plant proteins and their impact on protein structural changes and resulting physicochemical, functional, and nutritional properties.
ISSN:1541-4337
1541-4337
DOI:10.1111/1541-4337.12709