Cyanidin-3-glucoside (C3G) and peonidin-3-glucoside (P3G) in black rice grain (BRG) demonstrate many beneficial health effects, including antioxidant and anti-aging properties. This research aimed to study on pulsed electric field assisted water extraction (PEF-AWE) on BRG using pre-treatment technique, which was determined for enhanced yields of C3G and P3G, antioxidant and sirtuin1 enzyme stimulation activities. The effects of operating parameters for PEF-AWE (intensity of electric field, X1: 3–5 kV/cm, number of pulse, X2: 1000–3000 pulse and BRG/water ratio, X3: 0.1–0.5 g/mL) were determined using regression analysis and optimized PEF-AWE condition using the response surface methodology. Regression models showed the intensity of electric field and BRG/water ratio were the strong influence parameters significantly on C3G (p < 0.01). The results highlighted optimized conditions of PEF-AWE followed by 5 kV/cm, 3000 pulse and 0.5 g/mL leading to achieve higher C3G (92.59 ± 4.79 mg/g) and P3G (4.59 ± 0.27 mg/g) than no pre-treatment by PEF process, approximately 60%. Additionally, PEF extracts of BRG can modulate the ability of surtuin1 enzyme to deacetylate substrate proteins (26.78 ± 0.50 FIR). Thus, PEF-AWE can be applied to produce BRG extract as natural antioxidant compound and functional ingredient.
The influence of substitution types (A4M, E4M, and K4M), molecular weights (14000, 41000, and 86000), and concentrations (0, 0.2, 0.4, and 0.6% w/w of flour) of methylcellulose on oil absorption of wheat flour batter‐coated cut potatoes in two batter systems was studied. The two batter systems are (1) controlled viscosity batters at 1200 cp (CVB) and (2) controlled initial moisture content batters at 134 g/100 g flour (CIMB). In CVB, addition of methylcellulose increased initial moisture content of batters. There was no significant difference in moisture and oil content in fried products among types of methylcellulose. Higher number average molecular weight (Mn) of methylcellulose up to 41000 with simultaneous increase in initial moisture content resulted in greater moisture content in fried coating and oil content in food substrate. The higher the concentration of methylcellulose with concurrent increase in initial moisture content of batter, the greater the oil content in food substrate and the lower the oil uptake ratio in coating were obtained. For CIMB, addition of methylcellulose raised viscosity of batters. Higher Mn and concentration of methylcellulose in CIMB provided increasing coating thickness and decreasing oil uptake in fried products. Substitution type of methylcellulose for the molecular weight studied did not affect the fried quality whereas increase in Mn and concentration resulted in lower oil absorption and oil uptake ratio.
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