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Modification approaches of plant-based proteins to improve their techno-functionality and use in food products

Maryam Nikbakht Nasrabadi, Ali Sedaghat Doost (UGent) and Raffael Mezzenga
(2021) FOOD HYDROCOLLOIDS. 118.
Author
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Abstract
Plant-based proteins have recently attracted particular interest owing to their sustainable origins, economical costs and health benefits compared to animal-based counterparts. However, most of them have limited applications due to their inferior functionality, which is the consequence of poor-aqueous solubility, complexity and sensitivity to environmental stress conditions such as pH, salt and temperature. Additionally, plant proteins are often embedded in hemicellulose, lignin and other poorly digestible polysaccharides, which further reduce their bioavailability. Therefore, the modulation of plant proteins to improve their technological and industrial applications, and make them more accessible in general, is highly sought after. The modification of plant proteins by altering their physicochemical properties provides the possibility to improve and diversify their techno-functionality and biological activities as well as addressing their limitations. The selection of protein modification method should be done carefully from the final application view especially in food products since it can influence the protein functional, nutritional and organoleptic properties. Therefore, discussing different modification methods with their advantages and disadvantages is particularly timely. This review highlights and discusses the modification methods for plant proteins in order to make their applications in foods more feasible by improving their flavor, nutrition and techno-functional attributes, which will open up new opportunities within different plant-based food products.
Keywords
Plant-based proteins, Modulation, Modification, Food applications, Challenges, HIGH-PRESSURE HOMOGENIZATION, HIGH-INTENSITY ULTRASOUND, MOLECULAR-WEIGHT DISTRIBUTION, ELECTRON-BEAM IRRADIATION, LINOLEIC-ACID CLA, PEA PROTEIN, PHYSICOCHEMICAL PROPERTIES, GAMMA-IRRADIATION, OAT PROTEIN, EMULSIFYING PROPERTIES

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MLA
Nikbakht Nasrabadi, Maryam, et al. “Modification Approaches of Plant-Based Proteins to Improve Their Techno-Functionality and Use in Food Products.” FOOD HYDROCOLLOIDS, vol. 118, 2021, doi:10.1016/j.foodhyd.2021.106789.
APA
Nikbakht Nasrabadi, M., Sedaghat Doost, A., & Mezzenga, R. (2021). Modification approaches of plant-based proteins to improve their techno-functionality and use in food products. FOOD HYDROCOLLOIDS, 118. https://doi.org/10.1016/j.foodhyd.2021.106789
Chicago author-date
Nikbakht Nasrabadi, Maryam, Ali Sedaghat Doost, and Raffael Mezzenga. 2021. “Modification Approaches of Plant-Based Proteins to Improve Their Techno-Functionality and Use in Food Products.” FOOD HYDROCOLLOIDS 118. https://doi.org/10.1016/j.foodhyd.2021.106789.
Chicago author-date (all authors)
Nikbakht Nasrabadi, Maryam, Ali Sedaghat Doost, and Raffael Mezzenga. 2021. “Modification Approaches of Plant-Based Proteins to Improve Their Techno-Functionality and Use in Food Products.” FOOD HYDROCOLLOIDS 118. doi:10.1016/j.foodhyd.2021.106789.
Vancouver
1.
Nikbakht Nasrabadi M, Sedaghat Doost A, Mezzenga R. Modification approaches of plant-based proteins to improve their techno-functionality and use in food products. FOOD HYDROCOLLOIDS. 2021;118.
IEEE
[1]
M. Nikbakht Nasrabadi, A. Sedaghat Doost, and R. Mezzenga, “Modification approaches of plant-based proteins to improve their techno-functionality and use in food products,” FOOD HYDROCOLLOIDS, vol. 118, 2021.
@article{8702100,
  abstract     = {{Plant-based proteins have recently attracted particular interest owing to their sustainable origins, economical costs and health benefits compared to animal-based counterparts. However, most of them have limited applications due to their inferior functionality, which is the consequence of poor-aqueous solubility, complexity and sensitivity to environmental stress conditions such as pH, salt and temperature. Additionally, plant proteins are often embedded in hemicellulose, lignin and other poorly digestible polysaccharides, which further reduce their bioavailability. Therefore, the modulation of plant proteins to improve their technological and industrial applications, and make them more accessible in general, is highly sought after. The modification of plant proteins by altering their physicochemical properties provides the possibility to improve and diversify their techno-functionality and biological activities as well as addressing their limitations. The selection of protein modification method should be done carefully from the final application view especially in food products since it can influence the protein functional, nutritional and organoleptic properties. Therefore, discussing different modification methods with their advantages and disadvantages is particularly timely. This review highlights and discusses the modification methods for plant proteins in order to make their applications in foods more feasible by improving their flavor, nutrition and techno-functional attributes, which will open up new opportunities within different plant-based food products.}},
  articleno    = {{106789}},
  author       = {{Nikbakht Nasrabadi, Maryam and Sedaghat Doost, Ali and Mezzenga, Raffael}},
  issn         = {{0268-005X}},
  journal      = {{FOOD HYDROCOLLOIDS}},
  keywords     = {{Plant-based proteins,Modulation,Modification,Food applications,Challenges,HIGH-PRESSURE HOMOGENIZATION,HIGH-INTENSITY ULTRASOUND,MOLECULAR-WEIGHT DISTRIBUTION,ELECTRON-BEAM IRRADIATION,LINOLEIC-ACID CLA,PEA PROTEIN,PHYSICOCHEMICAL PROPERTIES,GAMMA-IRRADIATION,OAT PROTEIN,EMULSIFYING PROPERTIES}},
  language     = {{eng}},
  pages        = {{23}},
  title        = {{Modification approaches of plant-based proteins to improve their techno-functionality and use in food products}},
  url          = {{http://doi.org/10.1016/j.foodhyd.2021.106789}},
  volume       = {{118}},
  year         = {{2021}},
}
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