Background : Stevia extracts were reported to contain steviol glycosides like stevioside and rebaudioside A, as well as various polyphenol compounds. However, there are many difference in researchers with extract methods, considering components and antioxidant activity. This study was conducted to select optimum extraction method based on reported methods by measuring the natural sweeteners contents, analyzing antioxidant materials and activity according to extraction methods. Method and Results : Stevia leaves were extracted through vacuum extraction, hot water extraction, soxhlet extraction, high temperature and pressure extraction and ultrasonic extraction to identify the high extraction efficiency. Extraction yield was high in order of hot water extraction, soxhlet extraction, high temperature and pressure extraction and ultrasonic extraction except for vacuum extraction and contents of rebauduoside A and stevioside in stevia leaves was highest in high temperature and pressure extraction followed by vacuum extraction, soxhlet extraction, hot water extraction and ultrasonic extraction. Also, total phenolic contents and flavonoid contents were highest in high pressure extraction and vacuum extraction according to extraction methods. But DPPH radical scavenging activity was highest in ultrasonic extraction and tended to be rather low in high temperature and pressure extraction (ultrasonic extraction > hot water extraction > high pressure extraction > soxlet extraction > vacuum extraction) and there wa no difference in ABTS radical scavenging activity among extraction methods. Conclusion : The high temperature and pressure extraction is considered to be a suitable method for extracting stevia leaves because it showed high extraction yield and had high contents of rebaudioside A, stevioside, total phenolic contents and flavonoid contents.
Background : This study was carried out to select the medicinal crop having the superior antimicrobial activity against 5 microorganisms among 20 medicinal crops. Methods and Results : Dried plants were extracted by methanol. The extracts of each plant were evaporated under vacuum. The extracts were absorbed into 50㎕ of each extracts on paper disk and diameter of clear zone was confirmed around the colony. The results showed that diameter of the clear zone against Escherichia coli was the widest in Rhus javanica(R. javanica, 16mm), followed by Evening primrose(14.5mm), Chinaberry(13mm) and Giant knotweed(11mm). Also, diameter of the clear zone against Vibrio parahaemolyticu was the widest in R. javanica(26mm), followed by Evening primrose(21mm), chrysanthemum flower(19mm), Chinese pepper(16.5mm), Chidii rhizoma(11.5mm), Curly dock(11.5mm), Comfrey(11mm), Black nightshade(11mm) and Mustard(10mm). Likewise, diameter of the clear zone aginast Proteus mirabilis was the widest in R. javanica(11.5mm), followed by Chinaberry(11mm). Specially, diameter of the clear zone against Bacillus subtilis and Staphylococcus aureus was identified only in R. javanica(12mm and 11mm, respectively). Therefore, R. javanica showed the best excellent antimicrobial activity among 20 medicinal crops. Total phenolic and flavonoid contents of R. javanica were 2,725mg/100g and 30.2mg/100g respectively. DPPH and ABTS activity of R. javanica were 92.6% and 98.4%, respectively. Conclusion : These results suggest that R. javanica can be utilized as natural food additives and antioxidant materials because of its powerful antimicrobial action and the high antioxidant activity.