Elucidation of chickpea hydration, effect of soaking temperature, and extent of germination on characteristics of malted flour.

Abstract

Germination is a biochemical process that has been widely used to improve the nutritional quality, functional properties, and bioavailability of the protein. Soaking is the preliminary step for germination. Effect of soaking temperature on germination parameters was studied to select the suitable soaking temperature for germination. The effect of germination time on nutritional, functional, and microstructural properties of chickpea flour was evaluated. The soaking temperature was selected as 30°C depending on the germination percentage, vigor value, and mean germination time. Physico-chemical composition, antioxidant activity, ascorbic acid, total phenolic, and total flavonoid were investigated over 4 days of germination. It was found that protein content increased on dry matter basis, whereas carbohydrate and fat content decreased during germination. Ascorbic acid content was found to increase to about 3.52 times. Antioxidant activity increased from 24.14% to 58.50% after 4 days of germination. Water absorption capacity was found to decrease, whereas oil absorption capacity increased. XRD pattern depicted a decrease in crystallinity due to the degradation of amylopectin and increased amylose content. SEM was used to study the microstructural changes with increase in germination time. DSC studies were also carried out to study the effect of germination on thermal properties of chickpea flour. PRACTICAL APPLICATION: This research work gives an outline of the available literature on the mechanism of hydration and germination process with the associated chemical and biochemical changes in the bioactive components along with the special emphasis on the health benefits. The present work is an effort toward the development of chickpea-based meal-replacement beverages.