• Title/Summary/Keyword: sesame Oil

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Studies on the Contents of Special Components and Estimation of Purity in Sesame oil -I : Contents of Sesamin and Sterols- (참기름의 특이성분함량(特異成分含量)과 순도결정(純度決定)에 관(關)한 연구(硏究) (제(第) 1 보(報)) -Sesamin 및 관련(關聯)Sterol를 중심(中心)으로-)

  • Ro, Ihl-Hyeob;Lee, Moon-Sun
    • Journal of Nutrition and Health
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    • v.16 no.2
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    • pp.107-114
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    • 1983
  • There has been no specific test available for identifying the sesame oil among common edible oils. As the contents of sesamin and the ratio of sterols allowed the estimation for the genuine sesame oil, the author investigated to establish some instrumental methods for verification of genuine sesame oil and its distribution in the market. The sesame oil was saponified and the sesamin and sterols were isolated from the unsaponiable fraction by Florisil column chromatography. The individual components were determined by gas- chromatography and sesamin standard (purified sesamin) was obtained by silicagel column chromatography. The gas- chromatographic condition using Flame Ionization Detector supported on 10% OV-101 with di-(2-ethylhexyl) sebacate as an internal standard was suitable, and quantitation of sesamin and sterols, including campesterol, stigmasterol and ${\beta}-sitosterol$ was carried out. The results of this study showed that contents of sesamin in genuine sesame oil were 0.3-0.5% and the ratio of stigmasterol to compesterol was 0.3-0.6 and ${\beta}-sitosterol$ to campesterol 3.0-3.8. The 50 samples from the markets in Seoul were composed of 70% genuine sesame oil, and others were mixed with palm oil, rape seed oil and soybean oil.

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Manufacturing of Seasoning Oil as Sesame Oil Substituted used for Roasting Flavor (볶음향을 응용한 참기름 대체 향미유의 개발)

  • 구본순;김덕숙;정락철
    • The Korean Journal of Food And Nutrition
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    • v.15 no.4
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    • pp.337-341
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    • 2002
  • Crude seasoning oil was manufactured from direct heat treatment of com germ, wheat germ, dehulled peanut, mustard, black pepper and com oil(RBD type). The sesame oil substituted was composed of this crude seasoning oil, oil soluble natural pigment mixture and com oil, and showed the similar appearance, flavor and taste with sesame oil. Free fatty acid content of SO was 1/4 than sesame oil, the other values were similar, respectively. Use of this SO was suitable about cooking, general frying as well as frying of laver and Chinese cake. As a result, this SO had possiblility as sesame oil substituted.

Evaluation on Nutritional Balance by the Rate of Mixed Oil in Korean Style Broiled Beef and Pork by the Self-Developed Computer Program (한식육류구이용 양념장에 이용된 기름의 혼합율에 따른 지방의 영양균형성 평가)

  • Kim, Kap-Young
    • Korean Journal of Human Ecology
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    • v.10 no.1
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    • pp.81-87
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    • 2007
  • This study was designed to evaluate the balance of fatty acids for the Korean style broiled beef and pork ingredient of the rate of mixture oil with sesame oil, soybean oil and perilla oil, by self-developed computer program. Each 3 kinds of Korean style broiled beef and pork by the rate of mixure oil with sesame oil, soybean oil and perilla oil, were evaluated by using the self-developed computer program. Contents of calories were 415.6kcal in Korean style broiled beef, 656.3 kcal in Korean style broiled pork. The mean of protein were 41.35g, Korean style broiled beef, 32.66g, Korean style broiled pork. The ratio of C/P/F ratio of Korean style broiled beef and pork, 21/ 40/ 39, 10/ 20/ 70. The mean P/ M/ S of fatty acids in Korean style broiled beef and pork ratio was similar $0.4{\sim}0.5/\;1.4{\sim}1.5/\;1$. The ${\omega}6/{\omega}3$ ratio of fatty acids of Korean style broiled beef and pork using sesame oil was 54.3, 56.9 much higher than desirable $level(4{\sim}8)$. But the ${\omega}6/{\omega}3$ ratio of fatty acids of Korean style broiled beef using mixture oil with sesame oil, soybean oil and perilla oil were 4.6, 4.2 desirable $level(4{\sim}8)$, Korean style broiled pork using mixture oil with sesame oil, soybean oil and perilla oil were 3.0, 6.2. It means the ${\omega}6/{\omega}3$ ratio of fatty acids of Korean style broiled beef and pork was improved of desirable level respectively by using the mixture oil with sesame oil, soybean oil and perilla oil, than using sesame oil.

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Optimization of Sesame oil Extraction from Sesame cake using Supercritical Fluid $CO_{2}$ (초임계유체 $CO_{2}$를 이용한 참깨박 중 참기름 추출의 최적화)

  • Kim, Seong-Ju;Kim, Young-Jong;Chang, Kyu-Seob
    • Korean Journal of Food Science and Technology
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    • v.37 no.3
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    • pp.431-437
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    • 2005
  • Overall experiments were planned by central composite design, and results were analyzed by response surface methodology (RSM) to determine effects of three independent variables, temperature ($X_{1}$), extraction time ($X_{3}$), and pressure ($X_{3}$), on yield of sesame oil extract (Y). Regression equation model optimized by response surface analysis was: Y (sesame oil) = $-3.89+0.07X_{1}+0.03X_{2}+0.0006X_{3}-0.0007X_{1}^{2}-0.0002X_{2}X_{1}-0.00008X_{2}^{2}+0.000004X_{3}X_{1}+0.0000009X_{3}X_{2}-0.00000009X_{3}^{2}$. According to RSM analysis, optimum extracting conditions of temperature, time, and pressure were $45.89^{\circ}C$, 131.89 min, and 34228.41 kPa, respectively, and statistical maximum yield of sesame oil was 96.27%. Fatty acid composition of sesame oil showed sesame oil extracted by Supereritical Fluid $CO_{2}$ contained lower levels of palmitic, stcaric, and oleic acids and higher levels or palmitoleic and linoleic acids than commercial sesame oil. Commercial and extracted sesame oils were analyzed by electronic nose composed of 12 different metal oxide sensors. Obtained data were interpreted by statistical method of MANOVA. Sensitivities of sensors from electronic nose were analysed by principal component analysis. Proportion of first principal component was 99.92%. All sesame oils showed different odors (p < 0.05).

Antioxidant and Synergistic Effect of Sesame Oil Cake Extract Treated from $\beta$-Glucosidase ($\beta$-Glucosidase 처리된 참깨박 추출물의 항산화 및 상승효과)

  • 손종연;강동우;신길만
    • The Korean Journal of Food And Nutrition
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    • v.14 no.6
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    • pp.591-595
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    • 2001
  • The antioxidant and synergistic effects of sesame oil cake extract treated with $\beta$ -glucosidase were examined. The sesamin and sesamolin were identified from the 80% ethanol extract of seame oil cake treated with $\beta$ -glucosidase, which suggested the presence of the active substances as their glycosides in sesame seed. The contents of sesamin and sesamolin in sesame oil cake extract were about 8.32% (8,315.4 mg/100g) and 0.28% (2,824.5mg/100g) , respectively. Sesame oil cake extract showed antioxidant activity at concentrations of 50ppm, 100ppm and 200ppm, and the effect was Increased with the addition of sesame oil cake extract. The antioxidant effect of sesame oil cake extract was stronger than that of $\alpha$-tocopherol or ascorbyl palmitate, but weaker than of BHT Also, when the sesame oil cake extract(50ppm) was used in combination with $\alpha$-tocopherol(50 ppm), the sesame oil cake showed very strong synergistic effect.

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Identification of Vegetable Oil-added Sesame Oil by a Mass Spectrometer-based Electronic Nose (Mass Spectrometer를 바탕으로 한 전자코를 이용한 식물성 유지가 혼합된 참기름의 판별 분석)

  • Son, Hee-Jin;Hong, Eun-Jeung;Ko, Sanghoon;Choi, Jin Young;Noh, Bong-Soo
    • Food Engineering Progress
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    • v.13 no.4
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    • pp.275-281
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    • 2009
  • Sesame oils are partially mixed with other vegetable oils due to high price in a Korean market. To find out authentic sesame oil, a mass spectrometer-based electronic nose (MS-based E-nose) was used. Sesame oil (Se) was blended with soybean oil (So) or corn oil (Co) at the ratio (Se:So, Se:Co) of 97:3, 94:6, 91:9, 88:12 and 85:15, respectively. Intensities of each fragment from sesame oil by MS-based E-nose were completely different from those of soybean oil or corn oil. The obtained results were used for discriminant function analysis (DFA). Volatile organic components (VOC) of soybean oil or corn oil were similar to those of fresh air and DFA plot indicated a significant separation of pure sesame oil and pure other oil. The group of the mixed oil was seperated with that of sesame oil in DFA plot and the added amount of soybean oil to sesame oil was correlated with discriminant function first score (DF1). MS based E-nose system could be used as an efficient method to investigate the purity of sesame oil.

Prescriptions Utilizing Vegetable Oils in 『Donguibogam』(『東醫寶鑑』) (『동의보감(東醫寶鑑)』중 식물성 기름(油)을 활용한 방제)

  • Lee, Boo-Kyun
    • Herbal Formula Science
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    • v.28 no.3
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    • pp.301-311
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    • 2020
  • Object : To investigate which diseases the utilization of various vegetable oils were used and how they were used for treatment, and to change and develop vegetable oil combined prescriptions so that the Korean medical treatment effect in clinical practice can be enhanced. Methods : All words containing oil(油) were searched and selected oils used for simple prescription and oil combined prescription. Aii of animal oils such as butter(酥油), Suis oil(猪油), Anceris oil(鴈油), and Actonis caro oil(猯油) were excludIt is suggested to develop a new formulation by succeeding the utilization methods of various effects of sesame oil and other vegetable oils.ed. All selected oils were classified as sesame oil(麻油)(inclusive, 脂麻油, 胡麻油, 香油, 淸油) or other vegetable oils. Result : 1. In 『Donguibogam』(『東醫寶鑑』), 14 other vegetable oils were used to 23 prescriptions. 2. Sesame oil was used to 187 prescriptions over 41 disease categories as of 20 effects described in the 『Zhenghebencao』(『政和本草』). 3. In 28 prescriptions, sesame oil was also used for hygiene and prevention, emetic, preparating herbs and so on. Conclusion : The 101 prescriptions used for medicinal auxiliary materials are due to the efficacy of treatments of malignant furuncles, sores, scabies, promoting regeneration of tissue and flesh, reliving pain, dispersing abscess and swelling and supplementing fissured skin. In 『Donguibogam』(『東醫寶鑑』), the unique efficacy of each vegetable oil and sesame oil was used in various ways and preparation forms to treat various diseases. It is suggested to develop a new formulation by succeeding the utilization methods of various effects of sesame oil and other vegetable oils.

Oxidative Stability and Flavor Compounds of Sesame Oils Blended with Vegetable Oils (식물성유를 첨가한 참기름 혼합유의 산화 안정성과 향기 성분)

  • Joo, Kwang-Jee;Kim, Jin-Ju
    • Korean Journal of Food Science and Technology
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    • v.34 no.6
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    • pp.984-991
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    • 2002
  • Oxidative stability and flavor of sesame oil blended with canola oil (Ca), corn oil (Co), and soybean oil (Sb) at ratios of 90 : 10, 70 : 30, and 50 : 50 (w/w), respectively, were evaluated. Oxidative stability of sesame oil increased with the addition of vegetable oils (10, 30, and 50% of Ca and Co, and 10% of Sb). Pyrazines, pyrroles, pyridines, and thiazoles, good contributors to the characteristic flavor of sesame oil, were also found in sesame oil blended with vegetable oil. The sensory evaluation showed that no difference was observed between sesame oil and sesame oil blended with 10% of Ca, Co or Sb, which showed higher oxidative stability.

Effects of Perilla Oil and Tuna Oil on Lipid Metabolism and Eicosanoids Production in Rats (들기름과 참치유의 섭취가 흰쥐의 지방대사에 Eicosanoids 생성에 미치는 영향)

  • 김우경
    • Journal of Nutrition and Health
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    • v.29 no.7
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    • pp.703-712
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    • 1996
  • This study planned to compare the effects of source and amount of dietary n-3 fatty acid, tuna oil and perilla oil, on lipid metabolism and eicosanoids production in Spargue-Dawley strain male rats. Weaning rats were fed 5 different experimantal diets for 4 weeks. (S : beef tallow 50%+sesame oil 50%, T1 : beef tallow 50%+sesame oil 40%+tuna oil 10%, T2 : beef tallow 50%+sesame oil 25%+tuna oil 25%, P1 : beef tallow 50%+sesame oil 40%+perilla oil 10%, P2 : beef tallow 50%+sesame oil 25%+perilla oil 25%) Food intake was higher in T2 group than in other groups, but body weight gain and food efficiency tate were not different among groups. Plasma total lipid and triglyceride were significantly lower in groups fed perilla oil as much as groups fed tuna oil than in S. But tuna oil reduced plasma cholesterol level more than perilla oil. Liver total lipid per unit, cholesterol and triglyceride were not affected by dietary fat sources. Peroxisomal $\beta$-oxidation was higher in T1 and T2 than in P1 and P2. Activities of glucose 6 phosphate dehydrogenase and malic enzyme were lower in T1 and T2 than in group fed sesame oil only. Plasma TXB2 was affected by n-3 fatty acid consumption, and it was lower in perilla oil groups as much as tuna oil groups than in S. But 6-keto PGF1$\alpha$ was not different among experimental groups. The results of this study indicated that tuna oil and perilla oil both decreased plasma lipids, however, the mechanism may be different. And tuna oil and perilla oil had a similar effects on eicosanoids production.

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The Changes of Benzo(a)pyrene in Sesame Oil Affected by Processing Conditions (가공조건에 따른 참기름의 benzo(a)pyrene 변화)

  • Jang, Gi-Hwa
    • Journal of the Korean Applied Science and Technology
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    • v.28 no.4
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    • pp.464-471
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    • 2011
  • Sesame oil is a simple pressed oil as unrefined oil. During manufacturing process of roasting-expression, benzo(a)pyrene[B(a)P] formed as a strong carcinogenic substance is cause a social problem. In manufacturing process of sesame oil, it had following the forming pathway of benzo(a)pyrene[B(a)P] as well as minimizing plan of B(a)P formation. Suitable roasting condition by roaster was during 15~20min at $220^{\circ}C$, B(a)P content in sesame oil was $1.35{\sim}1.57{\mu}g/kg$. Between roasting temperature and/or roastingtime and forming amount of B(a)P was showed a linear correlation. As a point of view the turbidity and yield of final product, roasting process of the more regular level was required.