Abstract
SummaryThe effect of Lactobacillus plantarum fermentation on the functional and physicochemical properties of pea protein-enriched flour (PPF) was investigated. Over the course of the fermentation the extent of hydrolysis increased continuously until reaching a maximum degree of hydrolysis of 13.5% after 11 h. The resulting fermented flour was then adjusted to either pH=4 or 7 prior to measuring the surface and functional attributes as a function of fermentation time. At pH=4 surface charge, as measured by zeta potential, initially increased from +14 to +27 mV after 1 h of fermentation, and then decreased to +10 mV after 11 h; whereas at pH=7 the charge gradually increased from –37 to –27 mV over the entire fermentation time. Surface hydrophobicity significantly increased at pH=4 as a function of fermentation time, whereas at pH=7 fermentation induced only a slight decrease in PPF surface hydrophobicity. Foam capacity was highest at pH=4 using PPF fermented for 5 h whereas foam stability was low at both pH values for all samples. Emulsifying activity sharply decreased after 5 h of fermentation at pH=4. Emulsion stability improved at pH=7 after 5 h of fermentation as compared to the control. Oil-holding capacity improved from 1.8 g/g at time 0 to 3.5 g/g by the end of 11 h of fermentation, whereas water hydration capacity decreased after 5 h, then increased after 9 h of fermentation. These results indicate that the fermentation of PPF can modify its properties, which can lead towards its utilization as a functional food ingredient.
Highlights
Dry edible pea (Pisum sativum) is widely consumed around the globe as a healthy food
The overall goal of the present study is to examine the impact of fermentation of pea protein-enriched flour by Lactobacillus plantarum on the protein surface and functional properties at pH=4 and pH=7 in order to diversify the pea ingredient line for greater market integration
Solid-state fermentation of chickpea tempeh flour decreased the fat content from 6.1 % in the raw chickpea flour to 2.6 % in the tempeh flour [29], whereas cowpea fat content slightly increased after fermentation, from 0.9 to approx. 2 % [30]
Summary
Dry edible pea (Pisum sativum) is widely consumed around the globe as a healthy food. Peas are rich in proteins, carbohydrates, fibre, and vitamins/minerals, and are low in fat [1]. The protein content of pea is higher than many other staple foods, pea is considered a good protein source. Pea protein is rich in lysine, but deficient in the thiol-containing amino acids (cysteine and methionine) [2,3]. It is commonly recommended that one consume pulses such as pea along with cereal grains in order to obtain a complete essential amino acid profile [4], especially in places where animal protein is limited and expensive due to issues of food insecurity. While peas are a good protein source, they contain secondary metabolites considered to be anti-nutritional factors, such as enzyme inhibitors (trypsin and chymotrypsin inhibitors), oxalates, phytates, oligosaccharides, phenolics, tannins and lectins, that inhibit protein digestion or mineral absorption when consumed [5]
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