Abstract
Pulse crop seed coats are a sustainable source of antioxidant polyphenols, but are typically treated as low-value products, partly because some polyphenols reduce iron bioavailability in humans. This study correlates antioxidant/iron chelation capabilities of diverse seed coat types from five major pulse crops (common bean, lentil, pea, chickpea and faba bean) with polyphenol composition using mass spectrometry. Untargeted metabolomics was used to identify key differences and a hierarchical analysis revealed that common beans had the most diverse polyphenol profiles among these pulse crops. The highest antioxidant capacities were found in seed coats of black bean and all tannin lentils, followed by maple pea, however, tannin lentils showed much lower iron chelation among these seed coats. Thus, tannin lentils are more desirable sources as natural antioxidants in food applications, whereas black bean and maple pea are more suitable sources for industrial applications. Regardless of pulse crop, proanthocyanidins were primary contributors to antioxidant capacity, and to a lesser extent, anthocyanins and flavan-3-ols, whereas glycosylated flavonols contributed minimally. Higher iron chelation was primarily attributed to proanthocyanidin composition, and also myricetin 3-O-glucoside in black bean. Seed coats having proanthocyanidins that are primarily prodelphinidins show higher iron chelation compared with those containing procyanidins and/or propelargonidins.
Highlights
Pulse crops are harvested for dry seeds used in human diet as they are excellent sources of protein, carbohydrates and micronutrients, such as minerals, vitamins and bioactives [1]
Extracts of four different seed coat genotypes of chickpea, faba bean, lentil, pea and common bean were used to investigate the relationship between pulse crop seed coat polyphenols and in vitro antioxidant capacity/iron chelation ability
Low tannin genotypes express a similar gene that results in genetic blockage of part of the polyphenol pathway [65,66], whereas black varieties typically contain the highest amount of anthocyanins [67]
Summary
Pulse crops are harvested for dry seeds used in human diet as they are excellent sources of protein, carbohydrates and micronutrients, such as minerals, vitamins and bioactives [1]. Among these bioactive components, polyphenols, a group of secondary metabolites, are typically concentrated in seed coats [2]. Polyphenols protect seeds against UV radiation, pathogens and environmental stresses, but they can provide humans with health benefits mainly due to their free radical scavenging ability via electron transfer to unstable radicals [5,6]. High levels of free radicals are contributors to the progression of aging and several diseases, such as atherosclerosis, type 2 diabetes and cancer [8,9]
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