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김행란,김경미,우관식,정헌상,김광옥 한국식품과학회 2015 Food Science and Biotechnology Vol.24 No.5
Effects of steeping temperature (15, 25, and 35℃) and steeping period (1, 11, and 21 days) on volatile compounds isolated from waxy rice and gangjeong made using steeped waxy rice were evaluated. Six acids, 4 alcohols, 2 carbonyls, 1 furan, and 2 hydrocarbons were detected in waxy rice. Acids and alcohols accounted for the majority of isolated compounds. Compositions of volatile compounds differed according to steeping temperature and time, probably due to changes in microorganisms and enzymes. Forty volatile compounds were isolated from gangjeong made using steeped waxy rice, including 3 acids, 7 alcohols, 10 carbonyls, 1 furan, 10 terpene hydrocarbons, 5 aliphatic hydrocarbons, 2 sulfur-containing compounds, and 2 miscellaneous compounds. Most volatiles were generated via lipid oxidation and decomposition. 2-Pentyl furan was the major volatile compound in gangjeong. Volatile aroma compounds from waxy rice and gangjeong made using steeped waxy rice varied according to steeping conditions and frying processes.
김행란,김경미,이주혜,유상호,이소민,김광옥 한국식품과학회 2016 Food Science and Biotechnology Vol.25 No.5
Long steeping process of waxy rice involved in Gangjung production is essential for obtaining good quality Gangjung, but it causes many related problems. The objective was to examine physiochemical properties of waxy rice flour and expansion properties of Gangjung manufactured using waxy rice flour treated with protease (P-flour), α-amylase (A-flour), or in combination of the two (PA-flour) over different durations. While crude protein and reducing sugar contents of P-flour and Aflour differed depending on enzyme treatment time, it was not observed for PA-flour. Gangjung made with P-flour or A-flour could show similar expansion rate to that of Gangjung made with waxy rice flour steeped under the optimal condition, however, Gangjung made with PA-flour showed lower expansion rate than of the optimal one. These findings indicate that treatment of waxy rice flour with either protease or α-amylase, but not both, could reduce the steeping time involved in Gangjung production.