TY - JOUR
T1 - Optimizing protein quality: synergies and comparisons of single and combined alternative proteins from diverse sources
AU - Broucke, Keshia
AU - Van De Walle, Simon
AU - Mefleh, Marina
AU - Duquenne, Barbara
AU - Van Royen, Geert
AU - Boukid, Fatma
PY - 2024/11/13
Y1 - 2024/11/13
N2 - The global shift towards plant-based diets underlines the critical need to thoroughly evaluate the nutritional value of alternative proteins to meet dietary requirements. To effectively assess the protein quality, it is crucial to understand its composition and digestibility. Through this study, the protein quality assessment of a panel of proteins deriving from emerging plants (i.e., legumes and cereals) and microalgae sources (n = 8) was conducted. Protein digestibility, analyzed using two different methods and expressed in three different ways, showed a high discrepancy. This suggests that relying on two quantification methods and different ways of result expression can give a broader insight into understanding the protein digestibility of alternative proteins compared to a unilateral approach. The amino acid profiles and digestibility scores of individual proteins revealed that all sources contained limiting amino acids and that none met the dietary requirements. Based on the individual amino acid scores, we conducted theoretical calculations to explore potential protein blends. The optimal blend identified contained no limiting amino acids and included pea protein isolates and corn protein concentrates as the primary components, supplemented with barley protein concentrates, Spirulina, or Nannochloropsis oceanica. These results underscore the importance of protein versatility, demonstrating that strategically blending cereals, legumes, and microalgae can significantly enhance nutritional quality.
AB - The global shift towards plant-based diets underlines the critical need to thoroughly evaluate the nutritional value of alternative proteins to meet dietary requirements. To effectively assess the protein quality, it is crucial to understand its composition and digestibility. Through this study, the protein quality assessment of a panel of proteins deriving from emerging plants (i.e., legumes and cereals) and microalgae sources (n = 8) was conducted. Protein digestibility, analyzed using two different methods and expressed in three different ways, showed a high discrepancy. This suggests that relying on two quantification methods and different ways of result expression can give a broader insight into understanding the protein digestibility of alternative proteins compared to a unilateral approach. The amino acid profiles and digestibility scores of individual proteins revealed that all sources contained limiting amino acids and that none met the dietary requirements. Based on the individual amino acid scores, we conducted theoretical calculations to explore potential protein blends. The optimal blend identified contained no limiting amino acids and included pea protein isolates and corn protein concentrates as the primary components, supplemented with barley protein concentrates, Spirulina, or Nannochloropsis oceanica. These results underscore the importance of protein versatility, demonstrating that strategically blending cereals, legumes, and microalgae can significantly enhance nutritional quality.
KW - Digestible indispensable amino acid score
KW - Microalgae
KW - Plant proteins
KW - Protein degree of hydrolysis
KW - Protein digestibility
KW - Protein digestibility-corrected amino acid score
UR - https://www.mendeley.com/catalogue/777809f5-7e1b-399e-bb4f-600d2fc43d2b/
U2 - 10.1007/s00217-024-04610-z
DO - 10.1007/s00217-024-04610-z
M3 - A1: Web of Science-article
SN - 1438-2377
JO - European Food Research and Technology
JF - European Food Research and Technology
ER -