본 연구는 장미 ‘Bubble Gum’의 절화수명을 연장시키기 위하여 미산성 차아염소산수(Slightly acidic hypochlorous water, HOCl, pH 6.26)의 처리효과와 절화수명 연장제로써 의 가능성을 구명하고자 수행되었다. 침지처리는 30μL･L-1의 미산성 차아염소산수를 0분, 0.5분, 1분, 3분, 5분간 침지처 리 후 수돗물(Tap water, control)에 꽂아 두었다. 대조구의 절화수명은 8.7일인데 비해 5분 침치처리 시 10.8일로 대조 구보다 2.1일 수명을 연장시켰다. 상대생체중은 모든 처리구 에서 2일까지 증가하였고, 수분흡수율은 모든 처리구에서 6일 까지 증가하다가 감소하는 추세를 보였다. 화색 변화율인 ΔE 값은 3분(5.25), 5분(6.48), 30초(6.65), 1분(6.79) 침지처리 에서 대조구보다 낮았으며, 상대 화폭 증가율은 5분 침지 처 리구가 145%로 화폭의 증가율이 가장 컸고, 엽록소함량은 처 리 간 차이가 없었다. 결론적으로 절화장미 ‘Bubble Gum’의 절화수명은 미산성 차아염소산수의 5분 침지 처리가 효과적 으로 연장시켰다.

Curcumin is an active polyphenolic compound with antioxidant, anti-inflammatory and antitumor properties. Curcumin, however, is highly unstable under physiological conditions due to its low stability in acidic and alkaline conditions. Therefore, the objective of this study was to investigate the effects of enzyme-treated rice starch as a wall material on the stability of curcumin in oil-in-water emulsion under different pH conditions. The rice starch was treated using 4-a-glucanotransferase for different time periods and their molecular weight distribution was measured by HPSEC. Curcumin was encapsulated within lipid droplets of O/W emulsion prepared with Tween 20 and the modified rice starch in the aqueous phase at different concentrations (0, 2.5, 7.5 and 10 wt%). The temperature and pH stability of the system were determined respectively by measuring particle size, zeta potential and retention of the curcumin loaded in the emulsion after one-week storage in the solutions with different pH and temperature conditions. The average molecular weight of the modified starch decreased with treatment time. The 96h treated rice starch had the lowest molecular weight while the 1h treated starch mainly consisted of high molecular weight components. The storage temperature did not significantly influence the stability of curcumin emulsion. However, the particle size of the emulsion with modified starch slightly increased when stored at acidic pH condition, which might be attributed to starch aggregation. The curcumin retention was higher for the samples with the modified starch than the control at all concentrations. The pH stability of the curcumin was also higher than the control at all pH conditions. Specifically, the 1h treated starch showed the best performance regarding curcumin protection in emulsion, which might be attributed to the high viscosity that retarded the curcumin release. Further research needs to be conducted on the mechanism.