TY - JOUR
T1 - Sorghum protein ingredients
T2 - Production, compositional variability and enhancement of aqueous dispersibility through homogenization
AU - Gallo, Thais Cristina Benatti
AU - Beaumal, Valérie
AU - Houinsou-Houssou, Bérénice
AU - Viau, Michèle
AU - Ribourg-Birault, Lucie
AU - Sotin, Hélène
AU - Bonicel, Joëlle
AU - Boire, Adeline
AU - Queiroz, Valéria Aparecida Vieira
AU - Mameri, Hamza
AU - Guyot, Sylvain
AU - Riaublanc, Alain
AU - Nicoletti, Vânia Regina
AU - Berton-Carabin, Claire
PY - 2024/6
Y1 - 2024/6
N2 - Sorghum protein ingredients show promising applications, given that sorghum is a resilient grain with high protein content and bioactive components, such as tannins, in certain genotypes. This study aimed to investigate the production and characterization of sorghum protein ingredients extracted from both tannin-free and tannin-rich cultivars, along with an examination of their behavior in aqueous suspensions. The use of high-pressure homogenization to improve ingredient dispersibility was also assessed. Protein extracts exhibited protein contents ranging from 50 to 67 g/100 g (wet basis), with the highest values obtained in tannin-free samples. Total lipid contents were between 18 and 26 g/100 g (wet basis), with a high contribution of free fatty acids (68–76 g/100 g lipids), and tocopherol contents ranged from 1080 to 2039 µg/g total lipids. This is substantially higher than the lipid content in flours, implying an accumulation of lipids during the protein extraction process. While the dispersibility of the protein extracts in aqueous media was initially limited, high-pressure homogenization proved effective in reducing the average size of the particles in suspension, from 9–66 µm to 1.8–2.5 µm. This processing step significantly enhanced protein dispersibility by up to 288 %, especially for the tannin-rich samples.
AB - Sorghum protein ingredients show promising applications, given that sorghum is a resilient grain with high protein content and bioactive components, such as tannins, in certain genotypes. This study aimed to investigate the production and characterization of sorghum protein ingredients extracted from both tannin-free and tannin-rich cultivars, along with an examination of their behavior in aqueous suspensions. The use of high-pressure homogenization to improve ingredient dispersibility was also assessed. Protein extracts exhibited protein contents ranging from 50 to 67 g/100 g (wet basis), with the highest values obtained in tannin-free samples. Total lipid contents were between 18 and 26 g/100 g (wet basis), with a high contribution of free fatty acids (68–76 g/100 g lipids), and tocopherol contents ranged from 1080 to 2039 µg/g total lipids. This is substantially higher than the lipid content in flours, implying an accumulation of lipids during the protein extraction process. While the dispersibility of the protein extracts in aqueous media was initially limited, high-pressure homogenization proved effective in reducing the average size of the particles in suspension, from 9–66 µm to 1.8–2.5 µm. This processing step significantly enhanced protein dispersibility by up to 288 %, especially for the tannin-rich samples.
KW - Composition
KW - Kafirin
KW - Particle size
KW - Solubility
KW - Sorghum lipids
KW - Tannins
U2 - 10.1016/j.fufo.2024.100323
DO - 10.1016/j.fufo.2024.100323
M3 - Article
AN - SCOPUS:85187997044
SN - 2666-8335
VL - 9
JO - Future Foods
JF - Future Foods
M1 - 100323
ER -