The roles and potential of lentil prebiotic carbohydrates in human and plant health

Abstract

Societal Impact StatementLentils are not only rich in protein and micronutrients, but they also have significant amounts of prebiotic carbohydrates, which provide benefits to human health. Beneficial microorganisms ferment lentil prebiotic carbohydrates in the colon, which impart gut health benefits to the consumer. In addition, prebiotic carbohydrates provide benefits to lentil plant health through their roles in carbon transport, storage, and abiotic stress tolerance. Advantageous to both human and plant health, prebiotic carbohydrates should be a prominent target for breeding efforts to improve lentil as a crop, as well as its nutritional value to consumers. Summary Diet‐related ailments, such as obesity and micronutrient deficiencies, have global adverse impacts on society. Lentil is an important staple crop, especially in South Asia and Africa, and has been associated with the prevention of chronic illnesses, including type II diabetes, obesity, and cancer. Lentil, a cool‐season food legume, is rich in protein and micronutrients while also containing a range of prebiotic carbohydrates, such as raffinose family oligosaccharides (RFOs), fructooligosaccharides, sugar alcohols (SAs), and resistant starch (RS), which contribute to lentil's health benefits. Prebiotic carbohydrates are fermented by beneficial microorganisms in the colon, which impart health benefits to the consumer. Prebiotic carbohydrates are also vital to lentil plant health, being associated with carbon transport/storage and abiotic stress tolerance. Important to both human and plant health, prebiotic carbohydrates in lentil are a prominent candidate for nutrigenomic breeding efforts. New lentil cultivars could help to combat global health problems, while also proving resilient to climate change. The objectives of this review are to: (a) discuss the benefits lentil prebiotic carbohydrates confer to human and plant health; (b) describe the biosynthesis pathways of two prominent prebiotic carbohydrate families in lentil, RFOs and SAs; and (c) consider the potential of prebiotic carbohydrates in terms of future nutritional breeding efforts.