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Starch is one of the important plant storage carbohydrates that has many applications as a raw material in different industries especially the food industry. In this study physicochemical properties of starches extracted from quinoa TTKK and wheat, Pishgam were investigated. Percentage of amylose, X-ray diffraction, swelling power, solubility, water, and oil absorptions, and thermal, pasting, and textural properties were measured. SEM images illustrated that wheat starch granules size were about 8-10 μm and quinoa starch granules size were about 2-5 μm. Results showed that the percentage of quinoa starch amylose (9.19 ± 0.83) was lower than wheat starch (19.57 ± 0.66) but crystallinity percentage was higher in quinoa starch(p<0.05). As well as water absorption. Regarding thermal properties, all the parameters were higher than wheat starch. Measurement of starch pasting properties demonstrated that quinoa starch had higher pasting temperature and lower peak, final, break down, and set back viscosity(p<0.05). Studies on textural properties showed that hardness, gumminess, and springiness were significantly lower in quinoa starch compared to wheat starch. Therefore, unique starch properties of quinoa make it possible to use it in various bakery products which a lot of mechanical forces are applied to produce. as well as frozen products. 

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Foxtail millet contains amounts of nutrients such as starch, protein, vitamins and minerals. The aim of this study was to investigate the physicochemical properties of refined wheat flour (RWF) replaced by different ratios of foxtail millet flour (FMF) from 10% to 30%. The composite flour samples were analyzed for proximate composition, color, falling number, wet and dry gluten content, damaged starch content and alveo-consistograph characteristics. Correlation coefficients between flour analytical parameters and alveo-consistograph characteristics were obtained. Crude fiber, fat, protein and ash content increased not significantly (p>0.05) with increasing the amount of FMF. No significant difference (p>0.05) of b* value was observed between the flour samples. Adding the FMF, not significantly reduced (p>0.05) falling number, damaged starch content, wet and dry gluten content. Consistograph test indicated that addition of the FMF decreased water absorption capacity, maximum pressure and tolerance, however, drops in pressure at 250s and 450s became greater. Alveograph test revealed that with adding FMF, dough resistance to extension and dough strength decreased but an increase in dough extensibility obtained at FMF30%. The results of rheological properties by alveograph indicated the rate of the FMF influenced the rheological behavior.

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In this research, the extraction of protein from sprouted mung bean was conducted by the combination of ultrasound pretreatment, alkaline extraction and acid precipitation processes and the effects of sonication power (0, 50, 100, 150, 200, 250 and 300 W) and sonication time (10, 20, 30 and 40 min) on the structural and functional properties of the sprouted mung bean protein isolate (SMPI) were investigated. The results showed that the maximum extraction yield, protein solubility, water holding capacity (WHC), oil absorption capacity (OAC) and foaming capacity (FC) were reached in sonication power and the extraction time of 300 W and 30 min, respectively. Fourier transform infrared (FTIR) spectroscopy of the extracted proteins showed no destruction of the functional groups of the extracts during the sonication process. In addition, differential scanning calorimeter (DSC) analysis showed that longer sonication time and higher power of sonication led to more denaturation of proteins. Scanning electron microscopy (SEM) images illustrated considerable inter space and pores in the remaining sprouted mung bean cake at longer time and higher power of sonication. Based on the results, the functional properties of SMPI for use as a food ingredient could be enhanced by sonication, which is a green extraction process.