Dhananjay Kumar Singh, Ritesh Kurichh, Yograj Bist, Ankan Kheto, Yogesh Kumar, Rajiv Sharma, Deep Shikha, Dharmesh Chandra Saxena
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However, the destruction of hydrophobic functional groups resulted in a significant reduction in the oil absorption capacity (OAC). The pasting and rheological curves confirmed that low power can improve the pasting properties, producing thick pastes. However, the pan and microwave roasting (MWR) at 900 W for 5 min degraded starch and resulted in a flat pasting curve. Scanning electron microscope (SEM) micrographs also confirmed this, showing pore space formation, initiated at a power of 720 W and becoming more noticeable until 900 W, when the structure is destroyed. The X-ray diffraction (XRD) patterns of all samples suggested a type A crystalline structure, and the degree of crystallinity increased with microwave power, except for the 900 W for 5 min and the pan-roasted KMF. The antioxidant activity (AOA) of all roasted samples was higher than that of the control sample, except for 900 W for 5 min. Total flavonoid content (TFC) decreased in all KMF compared to the control, except 360 W for 3 min. Furthermore, all microwave-roasted KMF showed significantly higher total phenolic content (TPC) than control and pan-roasted KMF. 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引用次数: 0
摘要
在这项研究中,Kodo 小米粒在 360、720 和 900 瓦的微波炉中焙烧 3 和 5 分钟,并在 195°C 的温度下煎烤 5 分钟。根据物理、功能、糊化、流变、抗氧化、形态和结构特性对 Kodo 小米粉(KMFs)进行了表征。焙烧后,所有处理过的样品的容重(BD)都降低了,而自重、豪斯纳比率和可压缩性指数(CI)则随着焙烧而增加。微波功率(720 瓦和 900 瓦)和持续时间(5 分钟)越高,L∗ 值越低,a∗ 和 b∗ 值越高。平底锅焙烧和微波焙烧显著提高了面粉的吸水能力(WAC)。然而,疏水官能团的破坏导致吸油能力(OAC)显著降低。糊化和流变曲线证实,低功率可以改善糊化性能,产生粘稠的糊状物。然而,900 瓦的平底锅和微波焙烧(MWR)5 分钟会使淀粉降解,导致糊化曲线平坦。扫描电子显微镜(SEM)显微照片也证实了这一点,显示出孔隙的形成,在功率为 720 W 时开始形成,直到 900 W 时变得更加明显,此时结构被破坏。所有样品的 X 射线衍射(XRD)图都显示出 A 型结晶结构,结晶度随微波功率的增加而增加,但 900 W 5 分钟和煎烤过的 KMF 除外。除 900 瓦 5 分钟外,其他焙烧样品的抗氧化活性(AOA)均高于对照样品。与对照组相比,所有 KMF 的总黄酮含量(TFC)都有所下降,只有 360 瓦 3 分钟的 KMF 除外。此外,所有微波焙烤的 KMF 的总酚含量(TPC)都明显高于对照组和平底锅焙烤的 KMF。这些发现为优化焙烧过程以改善 KMF 的营养和功能特性提供了有价值的信息。
Effect of Microwave Roasting on the Physicochemical, Functional, Rheological, and Antioxidant Properties of Kodo Millet Flour
In this study, Kodo millet grains were roasted in the microwave at 360, 720, and 900 W for 3 and 5 min and pan-roasted at 195°C for 5 min. The Kodo millet flours (KMFs) were characterized on the basis of physical, functional, pasting, rheological, antioxidant, morphological, and structural properties. After roasting, the bulk density (BD) of all treated samples decreased, while the tap density, Hausner’s ratio, and compressibility index (CI) increased with roasting. Higher microwave power (720 and 900 W) and duration time (5 min) resulted in lower L∗ values and higher a∗ and b∗ values. The roasting in pan and microwave significantly improved the water absorption capacity (WAC) of flour. However, the destruction of hydrophobic functional groups resulted in a significant reduction in the oil absorption capacity (OAC). The pasting and rheological curves confirmed that low power can improve the pasting properties, producing thick pastes. However, the pan and microwave roasting (MWR) at 900 W for 5 min degraded starch and resulted in a flat pasting curve. Scanning electron microscope (SEM) micrographs also confirmed this, showing pore space formation, initiated at a power of 720 W and becoming more noticeable until 900 W, when the structure is destroyed. The X-ray diffraction (XRD) patterns of all samples suggested a type A crystalline structure, and the degree of crystallinity increased with microwave power, except for the 900 W for 5 min and the pan-roasted KMF. The antioxidant activity (AOA) of all roasted samples was higher than that of the control sample, except for 900 W for 5 min. Total flavonoid content (TFC) decreased in all KMF compared to the control, except 360 W for 3 min. Furthermore, all microwave-roasted KMF showed significantly higher total phenolic content (TPC) than control and pan-roasted KMF. These findings provide valuable information on optimizing the roasting process to improve the nutritional and functional properties of KMF.
期刊介绍:
The journal presents readers with the latest research, knowledge, emerging technologies, and advances in food processing and preservation. Encompassing chemical, physical, quality, and engineering properties of food materials, the Journal of Food Processing and Preservation provides a balance between fundamental chemistry and engineering principles and applicable food processing and preservation technologies.
This is the only journal dedicated to publishing both fundamental and applied research relating to food processing and preservation, benefiting the research, commercial, and industrial communities. It publishes research articles directed at the safe preservation and successful consumer acceptance of unique, innovative, non-traditional international or domestic foods. In addition, the journal features important discussions of current economic and regulatory policies and their effects on the safe and quality processing and preservation of a wide array of foods.