Influence of germination on physicochemical, thermo‐pasting, and antioxidant properties of moong grain ( Vigna radiata )

Accurate assessment of macronutrients and micro-elements of ten newly developed green gram (Vigna radiata (L.) Wilczek) cultivars grown in Uttar Pradesh, India

BACKGROUND

Green gram is a rich source of protein, carbohydrates, dietary fibre, and minerals. However, accurate data on the nutritional composition of green gram remains scarce since most researchers reported the carbohydrate content using the 'by difference method'. The objective of the current study is to accurately estimate the nutritional and mineral composition of green gram (Vigna radiata (L.) Wilczek).

RESULTS

Ten newly developed varieties and three local varieties of green gram were subjected to proximate and mineral composition analysis. The green gram varieties differed significantly (P < 0.05) for proximate and mineral content. From the results, they contain 62.5 to 84.6 g/kg of moisture, 28.3-37.4 g/kg of ash, 21.9-3.08 g/kg of fat, 484.6-535.7 g/kg of carbohydrate, 228.7-277.6 g/kg of protein, and 118.3-157.9 g/kg of dietary fibre. The most abundant mineral found was phosphorus, ranging 2716.66-4473.49 mg/kg followed by 3183.31-3597.61 mg/kg of potassium, 1506.51-1713.93 mg/kg of magnesium, 166.38-340.62 mg/kg of calcium, 40.16-348.79 mg/kg of iron, 27.60-34.35 mg/kg of zinc, 5.95-12.86 mg/kg of copper and 8.65-19.47 mg/kg of manganese.

CONCLUSION

The newly developed varieties of green gram showed high protein and dietary fibre content, while the local varieties were high in calcium and iron. Hence, both types of varieties are nutritionally significant. © 2023 Society of Chemical Industry.

Gluten-free grains: Importance, processing and its effect on quality of gluten-free products

Gluten-enteropathy affects a significant number of people, making gluten a major concern in the food industry. With medical advancements, the diagnosis of allergies is becoming easier, and people who are allergic to gluten are recommended a complete gluten-free diet. Since wheat provides a major part of the energy and nutrition in the diet, its elimination affects nutrition intake of allergic population. Food scientists are working to formulate products using protein-rich gluten-free grains with quality attributes at par with gluten-containing products. Focused research has been done to provide nutrition and a variety of food to people suffering from gluten-related disorders. Efforts are being made to remove the gluten from the wheat and other gluten-containing grains, while applying different processing/treatments to enhance the properties of gluten-free grains. Hence, the present review summarizes the importance, processing, and products of different gluten-free grains. It also highlights the digestibility of gluten-free grains with clinical trials and gluten elimination strategies for gluten-containing grains.

Effect of Thermal Treatment on the Internal Structure, Physicochemical Properties and Storage Stability of Whole Grain Highland Barley Flour

In this study, to improve the processing performance of whole grain highland barley flour (whole grain HB flour), they were prepared by sand-roasting, far-infrared baking, steam explosion, and extrusion, and the effects of on functional properties and storage characteristics were measured. The results indicated that sand-roasting, far-infrared baking, and steam explosion all caused cracks and honeycomb structures in the outer layer and endosperm of the highland barley. The XRD analysis results indicated that highland barley starch treated by far-infrared baking exhibited typical A-type crystal structure, while sand-roasting, steam explosion, and extrusion presented the typical V-type. The results of DSC analysis revealed that the onset temperature (To), peak temperature (Tp), gelatinization enthalpy (ΔH), peak viscosity (PV), trough viscosity (TV), and final viscosity (FV) decreased significantly, while the swelling power, water-holding capacity and oil-holding capacity increased significantly. During the storage period, the moisture content and lipase activity of the whole grain HB flour after thermal treatment remained at a low level; the fatty acid value, peroxide value, and malondialdehyde value increased; finally, the cooked whole grain HB flour was unstable during storage. The functional properties of whole grain HB flour can be improved by steam explosion, and will then have better storage stability.

Bread preparation by partial replacement of wheat by germinated sorghum

Published literature shows significant impact of sorghum type and flour on end-product quality, while demonstrating paucity in the studied varieties with respect to processing aspects (such as bread making) despite of enormous accessions available worldwide. Limited studies have reported usage of germinated flour for the above said purpose. The present study thus aimed at mitigating these gaps by utilizing results of sorghum (HJ-513) germination (Day 1-5) and flour derived from optimized condition (Day 3 as identified by partial least square analysis) to develop a composite functional bread (partial replacement of wheat). The germination process enhanced the total phenolics compounds (TPC, till day 3), water (14.01%) and oil absorption capacity (25.97%) while reducing the bulk density (760.99-644.69 kg/m³). This demonstrated increased potential of sorghum flour for development of bakery and confectionery products. The process also affected the pasting properties, total flavonoids compounds (TFC) and DPPH (2, 2-diphenyl-1-picrylhydrazyl) significantly (p < 0.05). The bread developed from partial replacement (10% and 20%) of refined wheat flour by sorghum was hard and darker than the control wheat bread. The bread developed at 20% was more dense and porous than the bread developed with 10% replacement. Specific volume of bread at 10% replacement was found higher than at 20% replacement. The study reports effective utilization of germinated sorghum flour for development of composite-functional bread without incorporation of any other additives/improvers. Future research however is warranted in the field to further increase the replacement of wheat flour by germinated sorghum flour to develop gluten free bread.

Quality characteristics of sand, pan and microwave roasted pigmented wheat (Triticum aestivum)

Present study investigated the effect of sand, pan and microwave roasting on physico-chemical, functional and rheological properties of yellow (YW), purple (PW), and black wheat (BW). All roasting methods enhanced the browning index (BI), water absorption capacity (WAC) and oil absorption capacity (OAC) roasted wheat flour. Microwave roasting showed significantly higher impact on BI (58.61% for YW, 131% for BW and 83.85% for PW) and WAC (47.93% for YW, 44.63% for BW and 32.09% for PW). However, the decrease in density, emulsifying capacity (EC), foaming capacity (FC), total phenolic content (TPC), total flavonoid content (TFC), and total anthocyanin content (TAC), and antioxidant activity was observed on roasted wheat flour. Roasting also affected the pasting properties of wheat flours and peak, trough, breakdown and final viscosity decreased.

A review on nutritional composition, antinutritional components and health benefits of green gram (Vigna radiata (L.) Wilczek)

Green gram is rich in proteins, carbohydrate, dietary fiber, vitamins, and minerals and contains a low amount of fat. Since it is rich in protein, it can be considered as the meat alternative for vegetarians. Besides being a nutritious food, green gram possesses potential health benefits such as antioxidant, anticancerous, anti-inflammatory and hypolipidemic activities. Green gram has prebiotic and nutraceutical properties. It contains an appreciable amount of galactooligosaccharides that are capable of enhancing the growth of beneficial gut microbiota. Different researchers already developed functional foods such as mung bean milk and non-diary probiotic drinks from green gram. It can also be used as a carrier material to deliver probiotic bacteria to the gut. Apart from these applications, green gram is used in cosmetics, land reclamation and incorporated into different foods such as jams, jellies, noodles, etc. Green gram is also a major ingredient used in China's traditional health foods. PRACTICAL APPLICATIONS: Green gram is rich in proteins, carbohydrate, dietary fiber, vitamins, and minerals and contains a low amount of fat. Since it is rich in protein, it can be considered as the meat alternative for vegetarians. Besides being a nutritious food, green gram possesses potential health benefits such as antioxidant, anticancerous, antioxidant, anti-inflammatory and hypolipidemic activities. Green gram has prebiotic and nutraceutical properties. It contains an appreciable amount of oligosaccharides that are capable of enhancing the growth of beneficial gut microbiota. Different researchers already developed functional foods such as mung bean milk and non-diary probiotic drinks from green gram. It can also be used as a carrier material to deliver probiotic bacteria to the gut. Apart from these applications, green gram is used in cosmetics and land reclamation and incorporated into different foods such as jams, jellies, noodles, etc. Green gram is also a major ingredient used in China's traditional health foods.