041) A similar increase in RP has been reported by other authors

041). A similar increase in RP has been reported by other authors upon the roasting process in oats [41]. In Table 5, the antioxidant learn more activity of RG was stronger than that of WG, and the antioxidant activity of ERG was stronger than that of EWG. Similar conclusions were made by Norajit et al [42] who found that the alginate film containing RG exhibited a greater antioxidant activity than that containing WG. It is widely known that the Maillard reaction products influence the antioxidant activity of plants. Sharma and Gujral [43] have reported that dark color pigments (brown color) are created during the thermal

processing of foods due to Maillard browning. Because the Maillard reaction http://www.selleckchem.com/screening/protease-inhibitor-library.html may produce antioxidative compounds, as found by Bressa et al [44], other researches have demonstrated that thermal processing may increase the antioxidant activity of sweet potatoes [45] and sweet corn [38]. Furthermore, Manzocco et al [46] concluded that the pigments (particularly melanoidins) are extensively known to have antioxidant activity. The increase in antioxidant activity could be explained by the formation of Maillard browning pigments, which enhanced the antioxidant activity of extruded products [47]. Another reason for the increase in antioxidant activity could be due to the increase in TPC. Similarly, the

potential health benefit of phenolics is mainly attributed to their antioxidant activity [48]. According to the correlation analysis, the TPC was significantly (p < 0.05) and positively correlated with DPPH radical scavenging activity (r = 0.9255) and RP (r = 0.9525). This means that the increase of TPC may partially contribute to the increase in antioxidant properties of extruded products Rapamycin in our findings. In general, the antioxidant potentials of plants derive from synergism, antagonism, and additivity of various compounds [49]. The antioxidant activity is affected by the quantity and kind of free radical scavengers present in the material, and a slight difference in measuring

method may lead to apparently different results from the same sample. We investigated the effects of extrusion cooking on the physicochemical properties of white and red ginseng. Extrusion cooking exhibited a significant effect on physical properties (WAI, WSI, color, and dispersibility) of extrudates. Also, extrusion cooking led to a significant increase in the effective components, such as acidic polysaccharides and total phenolics. Extrusion cooking was observed to have no significant effect on the ginsenoside content. Enzyme treatment significantly increased the content of acidic polysaccharides of extrudate compared with nonextrudate. After extrusion, the increase in the DPPH radical scavenging activity of EWG and ERG were 13.56% and 3.56%, respectively, whereas the increase in RP assay of EWG and ERG was 0.038 and 0.026, respectively.

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