Commercial yogurt can be classified as fermented milk (FM) and condensed fermented milk (CFM). A selection of commercial yogurt was collected from domestic markets and the quality characteristics were compared by analyzing total acidity, viscosity, organic acids, sugars, conjugated linoleic acid (CLA), and aroma pattern. Total acidity and viscosity in FM were significantly lower than those in CFM (p<0.05). The major organic acid of commercial yogurt was lactic acid, the content of which was 8.15-4.72 times and 26.83-47.20 times higher than that of citric acid and acetic acid, respectively. CFM contained 1.47 times more lactic acid and 2.53 times more citric acid than FM. The total sugar content in FM was two times higher than that in CFM and the major sugars measured were sucrose, lactose, glucose, and maltose. The sucrose content was the highest in FM. CFM contained 23.65 times more CLA and 10.81 times more lipid than FM. The aroma patterns of yogurt analyzed with an electronic nose were clustered into Therefore, among commercial yogurt, CFM had higher viscosity, organic acid and CLA content, but lower sugar content than FM, which resulted in a relatively strong sour and weak sweet taste.

Rapeseed cake was extracted with 80% ethanol and then fractionated with H2O (fraction I) as well as with 30% (II), 50% (III), 70% (IV), and 100% ethanol (V). Total phenolic content (TPC), 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity, ferric-reducing antioxidant potential, and Trolox equivalent antioxidant capacity were in the order of fractions II > III > I > IV > V. The three fractions with high antioxidant activities and TPC (I, II, and III) were pooled and hydrolyzed by NaOH solution, resulting in 18.97 mg sinapic acid/g hydrolyzed extract and 21- and 2.2-fold increases in TPC and DPPH radical scavenging activity, respectively. Hydrolyzed rapeseed cake extracts (200, 500, and 1,000 ppm) and catechin (200 ppm) as a comparison were added to 10% fish oil-in-water emulsion, and their effects on oxidative stability were investigated by measuring hydroperoxide values (PV) during refrigerated storage. PVs were significantly lower in the emulsions with added hydrolyzed extract as compared to the control (p<0.05) and significantly decreased with increasing extract concentration (p<0.05) over a period of 29 days. The emulsion added with hydrolyzed extract showed higher PV than that added catechin at the same concentration (200 ppm) during 13-22 days (p<0.05), but after then, the PV was not significantly different (p>0.05). This study indicates that hydrolyzed rapeseed cake extract rich in sinapic acid may inhibit oxidation in a fish oil-in-water emulsion in a concentration-dependent manner.