ABSTRACT
The present investigation aimed to evaluate the effect of popping and malting on nutritional characteristics in millets. Five genotypes each of sorghum, finger millet and pearl millet were analyzed after popping and malting process. The physiochemical, antinutrients and antioxidant properties were observed in raw, popped and malted millet flours. The crude protein and energy were found to increase when popped and decrease after malting, whereas crude fibre content significantly decreased in popped and malted flours of all millets over the raw flours. A significant rise in total soluble carbohydrates was seen after raw millets were processed. Malting resulted in increase of enzymatic activities (Lipoxygenase and alpha-amylase). Alkaloids and antioxidants (FRAP, DPPH and Ascorbic acid) increased whereas starch and amylose decreased after processing techniques compared to raw flour. Total phenols and tannins increased and reduction in antinutrients i.e. phytic acid, saponins and oxalate was seen in processed millet flours over raw. The results showed that the household processing techniques i.e. popping and malting improved the nutritional composition and antioxidant potential with simultaneous decrease in antinutritional components in all millet genotypes. Raw and processed pearl millet genotype PCB-166 found to be better in terms of nutritional and antioxidant potential, and therefore, could fulfill the nutritional needs of the poor community. Further, processed millet flours could be utilized in the development of value added products. Supplementary Information: The online version contains supplementary material available at 10.1007/s13197-023-05758-4.
ABSTRACT
Extrusion cooking is a unique method for preparing pasta, which is generally produced from durum wheat semolina. However, preparation of pasta from sorghum is not practiced in India. Therefore, the present study was undertaken to develop and standardize pasta from sorghum cultivar, M35-1 and wheat semolina of 0.1 mm particle size. Sorghum and wheat semolina in different proportions (T1;S:W-50:50,T2;S:W-60:40,T3;S:W-70:30,T4; S:W-80:20, T5; S -100) were mixed with lukewarm water (40 °C) in the cold extruder for 30 min and passed through the extruder with a screw speed of 80 rpm and at a temperature of 55° to obtain pasta of diameter (0.6 mm) and length (1.4 mm). The extruded pasta was dried at 70 °C in a tray drier for 8 h, cooled and stored in polyethylene bags at room temperature. The pasta was subjected to physico-chemical analysis such as length, diameter, bulk density, water absorption, cooking time, cooking loss, moisture, water activity, alcoholic acidity, amylase, carbohydrates, fat, protein, fibre and ash using standard methods. Organoleptic characteristics such as color and appearance, texture, taste, flavor and overall acceptability, stickiness, bulkiness and firmness were evaluated at laboratory level by a panel of semi trained judges using 5 point hedonic rating scale. Among the various blends studied, the sorghum and wheat semolina with a combination of 50:50 (T1) and 60:40 (T2) and 70:30 (T3) were more acceptable than others. Well acceptable sorghum pasta can be developed from sorghum and wheat, thereby improving its nutritional composition.
