Germination as a bioprocess for enhancing the quality and nutritional prospects of legume proteins

Proteins are essential macronutrients of the human diet. Currently, major dietary sources in developed countries are of animal origin. However, the association of red meat consumption to the increased risks of some health conditions and its unsustainable pressure on the environment have increased th...

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Bibliographic Details
Published in:Trends in food science & technology 2020-07, Vol.101, p.213-222
Main Authors: Ohanenye, Ikenna C., Tsopmo, Apollinaire, Ejike, Chukwunonso E.C.C., Udenigwe, Chibuike C.
Format: Article
Language:English
Subjects:
Antinutrition factors
Biological properties
Bioprocessing
Deactivation
Developed countries
Diet
Digestibility
Food matrix
Germination
Health risks
Hydrolysis
Inhibitors
Legumes
Meat
Nutrient content
Nutrition
Polyphenols
Protein digestibility
Protein quality
Proteins
Seeds
Trypsin
Trypsin inhibitors
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Summary:Proteins are essential macronutrients of the human diet. Currently, major dietary sources in developed countries are of animal origin. However, the association of red meat consumption to the increased risks of some health conditions and its unsustainable pressure on the environment have increased the interest in plant proteins as healthier and sustainable alternatives. Of these, legumes have a great potential, but part of their proteins are indigestible due to interaction with other components such as phytate and polyphenols. As such, the quest to improve protein accessibility has become of interest to many researchers. Germination is proposed to be a bioprocess method to improve protein digestibility and protein biological properties. This review discusses the importance of plant proteins and the hindrance of protein digestibility. This paper also highlights the role of germination in the deactivation of antinutritional factors, hydrolysis of indigestible proteins, and improvement of properties and content of proteins of different legume seeds. Protein digestibility is dependent on the nature of antinutritional factors (e.g. trypsin inhibitors and phytate) in the food matrix. Germination represses the activity of trypsin inhibitors and removes the phytate-related inhibition through hydrolysis. Protein content increases in germinated seeds when compared to non-germinated ones, suggesting that proteins were either hydrolysed or dissociated from antinutritional factors. Germination seems like an adequate bioprocessing method to improve the content and nutritional quality of legume seed proteins. •Legumes have high protein content but some of the proteins are not highly digestible.•Legume seed germination degrades antinutritional factors to enhance protein digestibility.•Germination also disrupts the seed microstructure to release proteins from complexes.•Protease activity during germination partially hydrolyses seed proteins to enhance digestibility.•This sustainable bioprocess enhances legume seed protein quality and nutritional prospects.
ISSN:0924-2244
1879-3053
DOI:10.1016/j.tifs.2020.05.003