The purpose of this investigation was to report on the total phenolics, anthocyanins, and oxygen radical absorbance capacity (ORAC) of strawberry, peach, and apple, the influence of dehydration and ascorbic acid treatments on the levels of these compounds, and the effect of these treatments on fruit color. Results showed that fresh strawberry had the highest levels for total phenolics [5317.9 mg of chlorogenic acid equivalents (CAE)/kg], whereas lower levels were found in fresh apple and peach (3392.1 and 1973.1 mg of CAE/kg, respectively), and for anthocyanins (138.8 mg/kg), whereas lower levels were found in fresh apple and peaches (11.0 and 18.9 mg/kg, respectively; fresh strawberry had an ORAC value of 62.9 mM/kg Trolox equivalents. The fresh apple and peach were found to have ORAC values of 14.7 and 11.4 mM/kg of Trolox equivalents, respectively. The color values indicated that the addition of 0.1% ascorbic acid increased the lightness (L) and decreased the redness (a) and yellowness (b) color values of fresh strawberry, peach, and apple, sliced samples, and the puree made from them. Also, results showed that dehydration is a good method to keep the concentrations of total phenolics and anthocyanins and ORAC values at high levels.
The purpose of this study was to evaluate the total phenolic extracts and antioxidant activity and anthocyanins of varieties of the investigated plants. These plants include oregano, thyme, terebinth, and pomegranate. The optimum extraction conditions including temperature and solvent of the extraction process itself were investigated. Total phenolic and anthocyanin extracts were examined according to Folin-Ciocalteu assay and Rabino and Mancinelli method, respectively. The effect of different extracting solvents and temperatures on extracts of phenolic compounds and anthocyanins were studied. Plant samples were evaluated for their antioxidant chemical activity by 2, 2-diphenyl-1-picrylhydrazl assay, to determine their potential as a source of natural antioxidant. Results showed that all tested plants exhibited appreciable amounts of phenolic compounds. The methanolic extract (60 °C) of sour pomegranate peel contained the highest phenolic extract (4952.4 mg/100 g of dry weight). Terebinth green seed had the lowest phenolic extract (599.4 mg/100 g of dry weight). Anthocyanins ranged between 3.5 (terebinth red seed) and 0.2 mg/100 g of dry material (thyme). Significant effect of different extracting solvents and temperatures on total phenolics and anthocyanin extracts were found. The methanol and 60 °C of extraction conditions found to be the best for extracting phenolic compounds. The distilled water and 60 °C extraction conditions found to be the best for extracting anthocyanin.
This study evaluated the effectiveness of substituting different concentrations of chickpea flour, broad bean flour, or isolated soy protein (ISP) on the physicochemical and sensory properties of biscuits. Fortification processes were conducted by substituting specified concentrations (3%, 6%, 9%, and 12%) of both broad bean and chickpea and (3%, 6%, and 9%) ISP from the total percent of wheat flour (100%). Proximate chemical analysis results of biscuits showed that fortification increased protein contents from 16.57% to 22.84%. Results indicated that fortification decreased spread factor compared with the control. Sensory and instrumental color results showed that fortified chickpea increased the lightness, while fortification with broad bean or ISP increased the darkness. Descriptive results showed that as the fortified ISP and chickpea ratios increased most of liking and just about right (JAR) attributes decreased, while they increased for fortified broad bean. Descriptive analysis also showed that 3% of fortified ISP and chickpea or 12% of broad bean provided the best quality ratios within each type of fortification. Consumer results showed that no significant differences of fortification of soy protein isolate (3%), chickpea (3%), or broad bean (12%) and the control of sensory quality attributes of liking and JAR were found except for overall flavor and color. Fortification of chickpea and broad bean flour as well as ISP could be used in production of high‐protein biscuits.
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