• 한국식품영양과학회지
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• 제38권3호
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• pp.280-286
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• 2009

본 연구에서는 참기름, 흑참기름, 들기름 및 올리브유 추출물의 생리활성을 비교, 분석하고자 하였다. 참기름, 흑참 기름, 들기름 및 올리브유 추출수율은 각각 0.94%, 0.70%, 0.48% 및 0.30%로 참기름의 경우, 추출수율이 가장 높았으며, 올리브유의 경우 가장 낮았다. 참기름, 흑참기름, 들기름 및 올리브유 추출물의 총 플라보노이드 함량은 각각 2.7%, 1.9%, 3.0% 및 1.4%이었고, 총 페놀 함량은 각각 6.5%, 4.5%, 4.1% 및 10.1%이었다. DPPH radical 소거능은 참기름> 올리브유> 들기름> 흑참기름 추출물의 순으로, 참기름 추출물이 가장 강한 효과를 보였다. 참기름, 흑참기름, 들기름 및 올리브유의 SOD 유사활성은 1,000 ppm일 때 0.1%, 36.2%, 34.5% 및 31.0%, 5,000 ppm일 때 0.2%, 67.2%, 90.2% 및 46.7%이었다. 아질산염 소거능은 참기름> 흑참기름> 들기름> 올리브유 추출물의 순으로, 참기름 추출물이 가장 강했다. 올리브유 추출물의 경우 B. cereus, M. luteus, E. coli, S. Enteritidis 모두에서 강한 항균효과를 보인 반면, 흑참기름 추출물의 경우는 M. luteus와 E. coli에서만 약한 항균효과를 보였다. 한편 참기름 및 들기름 추출물에서는 항균활성이 나타나지 않았다.

• 한국식품위생안전성학회지
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• 제3권2호
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• pp.59-63
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• 1988

순수 참기름을 판정하기 위한 기초자료를 얻고자 산지별에 따른 5종류의 참기름과 아마인유, 들깨기름 및 대두유를 시료로 하여 TLC에 의하여 triglyceride를 분획하고 HOLC에 의하여 PN별로 분획하였다. 이상의 결과를 요약하면 다음과 같다. 1. 산지별에 따른 5종류의 참기름의 PN별 획분은 42, 44, ,46, 48 및 50으로 그 조성이 동일하여 진위 판정의 자료로 이용가능하였다. 2. 아마인유 및 들깨기름은 PN 36, 38, 40, 42, 44, 46 및 48로서 PN 36, 38 및 40획분이 주요 획분으로 특징적이었다. 3. 대두유의 Pn별 획분은 PN36~50으로 8획분이었으며 참기름의 PN별 조성과 비교하여 PN38 및 40 획분이 특징적인 peak로 감지되었다. 4. 참기름과 4% 혼합한 경우 PN별 조성으로부터 순수 참기름의 판정이 가능하였다.

• Preventive Nutrition and Food Science
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• 제15권1호
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• pp.51-56
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• 2010

The aim of this study is to examine the radical scavenging activity of perilla and sesame oil that Koreans traditionally consume. For DPPH radical scavenging activity, oil and its hexane/70% methanol extracts (ME) are used and for superoxide and hydroxyl radical scavenging activities, ME are used. Unrefined perilla oil, sesame oil, and refined sunflower oil are used. The yields for ME of perilla, sesame and sunflower oil are 0.57, 0.61, and 0.30%, respectively, and the amounts of phenolic compounds in ME of corresponding oil are 18.77, 88.64 and $0.05\;{\mu}g$ tannic acid/mg, respectively. $IC_{50}$ for DPPH scavenging activity of perilla, sesame and sunflower oil are 2.12, 1.91, and 3.35 mg/mL, respectively and those for ME of corresponding oils are 0.42, 0.07, and 43.11 mg/mL, respectively. In DPPH assay, the solvent used for oil sample is iso-octane and that for ME is methanol. Superoxide anion scavenging activity of ME of perilla, sesame and sunflower oil tested at 1 mg/mL concentration are 21.10, 13.25, and 3.14%, respectively. Hydroxyl radical scavenging activities of those samples tested at 1 mg/mL concentration are 86.08, 93.30, and 93.17%, respectively. In summary, the refining process seems to remove the phenolic compound during oil processing. Antiradical substances in perilla and sesame oils responsible for scavenging DPPH radicals are present in the methanol fraction, while the antiradical substances in the sunflower oil are in the lipid fraction. DPPH scavenging activity of ME of sesame oil is significantly higher than that of perilla oil (p<0.05). However, superoxide anion scavenging capacity of ME of perilla oils was found to be greater than that of both sesame and sunflower oils (p<0.05).

• 한국작물학회:학술대회논문집
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• 한국작물학회 2017년도 9th Asian Crop Science Association conference
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• pp.255-255
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• 2017

Sesame has been consumed for centuries as flavoring ingredient in eastern Asian countries, especially Korea. Sesame seeds have been used as health food for traditional medicine to prevent disease in Asian countries for several thousand years. Sesame seed has higher oil content (around 50%) than most of the known oilseeds. Sesame oil is rich in monounsaturated and polyunsaturated fatty acids. Extraction of sesame has developed significantly over the years. The mechanical method was an early means of separation which was physical pressure to squeeze the oil out. Nowadays, solvent extraction becomes the commonly used commercial technique to recover oil from oilseeds. In this study, we investigated extraction efficiency and quality of oil affected by cultivars and extraction methods of sesame seed. Different variables were investigated; roasting temperature ($170{\sim}220^{\circ}C$), extraction methods (solvent and physical pressure), forced ventilation system and cultivars. The Contents of B(a)P in sesame oil after roasting at $170{\sim}220^{\circ}C$ were 0.30~2.53 ppm. When we introduced forced ventilation system during roasting, B(a)P Contents were decreased up to 36%. The Oil extraction efficiency on sesame seed was statistically depending on the cultivars and extraction methods. The oil extraction yields of solvent and physical pressure extraction were 56.3% and 44.6%, respectively. Many of sesame cultivars and genetic resources are linolenic acid content of less than 0.5%. The results supported that we have developed a safe and high quality sesame oil processing methods for small and medium-sized companies.

• 한국식품과학회지
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• 제41권6호
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• pp.609-614
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• 2009

참기름은 높은 항산화활성 및 항암작용 등의 우수한 영양학적 가치를 지니는 반면 비싼 가격으로 인하여 가짜 참기름의 유통이 범람함에 따라 이를 판별할 수 있는 분석 방법의 확립이 요구되는 실정이다. 질량분석기를 바탕으로 한 전자코를 이용하여 들기름이 혼합된 참기름을 제조하여 진위 판별을 시도하였다. 각각의 유지를 전자코를 이용하여 분석, 통계처리하였다. 혼합 참기름의 휘발성 향기성분으로부터 생성되는 ion fragment 중 40-160 amu에서 각 시료 간에 차별성이 높은 fragment(m/z)를 선택하여 해당 intensity값을 판별 분석한 결과, 참기름 및 들기름은 뚜렷하게 구분되었다. 미량의 들기름이 혼합된 참기름은 첨가된 들기름의 농도에 비례하여 제1판별함수값(DF1)과 높은 상관관계를 나타내었다. 참기름의 볶음온도 및 시간 등의 제조조건 및 재배환경, 재배 산지, 제조회사 등의 요인에 의하여 순수한 참기름의 향기패턴이 달라지는 것을 인도산과 국산 참기름을 이용하여 분석하였다. 향후 참기름의 위조 여부를 검증하는 방법에 하나로 활용될 수 있을 것이다.

• Asian-Australasian Journal of Animal Sciences
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• 제16권4호
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• pp.511-514
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• 2003

Previously, we reported that a diet including sesame meal (SM) increased plasma total and high-density lipoprotein (HDL)-cholesterol concentrations in goats. In the present study, the components in the sesame meal that can increase plasma total and HDL-cholesterol concentrations have been examined. In experiment 1, we gave goats defatted sesame meal diet (DSM) to investigate the influence of ether extract fraction remained in sesame meal. Corn gluten meal diet (CGM) was also fed to goats as a high-protein diet to examine the influence of high dietary protein level caused by usage of sesame meal. Plasma total and HDL-cholesterol concentrations of goats fed DSM and CGM did not change during experimental periods though they were elevated by feeding SM. In experiment 2, the influence of sesame oil and corn oil added in diets on plasma total and HDL-cholesterol concentrations in goats was investigated. Plasma total and HDL-cholesterol concentrations were increased by feeding both corn oil diet and sesame oil diet. In conclusion, the increase in plasma HDL-cholesterol concentration by feeding sesame meal was resulted by the effect of ether extract fraction including sesame oil or some lipid-soluble components remained in sesame meal.

• Journal of Nutrition and Health
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• 제13권4호
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• pp.159-166
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• 1980

Methods for the determination of sterols in sesame oils were studied. The sesame oils were saponified and the sterols isolated from the unsaponifiable matter by Florisil column chromatography, and the individual components were determined by means of gas chromatography. Campesterol, ${\beta}-sitosterol$, stigmasterol were found in sesame oil including unknown Ⅰ and Ⅱ. The use of SE-30 gas chromatographic column allows the slow elution, duplication of peaks and relatively low reproducibility, therefore, 3% OV-17 was suitable for the sterol analysis. The result of this study showed that contents of sterols in sesame oil were campesterol 8.4%, stigmasterol 4.5%, ${\beta}-sitosterol$ 33.9% and others 53.0% involving 8.8% of unknown I and 44.3% of unknown Ⅱ. There has been no specific test available for identifying the sesame oil among common edible oils. But the ratio of sterols in sesame oils allowed the estimation of genuiness. The ratio of sterols vs. campesterol in genuine sesame oils were stigmasterol 0.3- 0.6, ${\beta}-sitosterol$ 3.0-3.8 and unknown Ⅱ 3.0, respectively. The 65 samples were composed of genuine sesame oil 40%, mixed rape seed oil 3%, cotton seed oil 1. 5% others were reused soybean oil or re-extracted oil.

• 한국식품과학회지
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• 제37권5호
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• pp.856-860
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• 2005

Electronic-nose system was used to discriminate commercial sesame oils (A-F) extracted from imported seeds. Response (delta $R_{gas}/R_{air}$) of sensors gained from electronic nose was analyzed by principal component analysis (PCA). Flavor pattern of sesame oil A was similar to those of sesame oils B, C, and D. Sesame oils blended with corn oil at the ratio of 95:5, 90:10 and 80:20% (sesame oil/corn oil, w/w) could be discriminated from ouch genuine sesame oil.

• 한국작물학회지
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• 제47권
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• pp.140-149
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• 2002

Sesame (Sesamum indicum L.) is probably the most ancient oilseed crop known in the world. Sesame seed is known for its high nutritional value and for having oil (51%) and protein (20%) content. The fatty acid composition of sesame oil is palmitic acid (7.8%), stearic acid (3.6%), oleic acid (45.3%), and linoleic acid (37.7%). Sesame oil is characterized by a very high oxidative stability compared with other vegetable oils. Two lignan-type compounds, sesamin and sesamolin, are the major constituents of sesame oil unsaponifiables. Sesamol (a sesamolin derivative) can be present in sesame seeds and oils in very small amount. Other lignans and sesamol are also present in sesame seeds and oils in very small amount as aglycones. Lipid oxidation activity was significantly lower in the sesamolin-fed rats, which suggests that sesamolin and its metabolites contribute to the antioxidative properties of sesame seeds and oil and support that sesame lignans reduce susceptibility to oxidative stress. Sesaminols strongly inhibit lipid peroxidation related to their ability to scavenge free radical. The sesame seed lignan act synergistically with vitamin I in rats fed a low $\alpha$-tocopherol diet and cause a marked increase in a u-tocopherol concentration in the blood and tissue of rats fed an $\alpha$-tocopherol containing diet with sesame seed or its lignan. The authors are reviewed and discussed for present status and prospects of quality evaluation and researched in sesame seeds to provide and refers the condensed informations on their quality.

• 한국식품조리과학회지
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• 제17권6호
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• pp.611-616
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• 2001

This study was carried out to investigate the effect of various lipids on the quality of Yackwa. Sesame oil, soybean oil, margarine for cream, margarine for pie and shortening were used as lipid for making dough of Yackwa in this study. The expansion rate of Yackwa ranked in the order of shortening, margarine for pie, soybean oil, margarine for cream and sesame oil. The Yackwa made with shortening showed low hardness, cohesiveness, gumminess and brittleness such as the ones made with sesame oil. The Yackwa made with sesame oil was oily and showed the lowest acceptability, but the Yackwa of shortening gained the highest score of acceptability in sensory evaluation. In conclusion. this experimental result indicated that shortening would be very useful as a substitute for sesame oil in making Yackwa.