• 제목/요약/키워드: Perilla seed

검색결과 189건 처리시간 0.023초

들깨유가 흰쥐의 체내 지질대사에 미치는 영향에 관한 연구 (Effect of Dietary Perilla Seed Oil on Lipid Metabolism in Rats)

  • 장순덕;노숙령
    • Journal of Nutrition and Health
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    • 제24권5호
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    • pp.408-419
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    • 1991
  • The effects of various dietary fats on plasma lipids. liver lipids, and Plasma Peroxide levels were studied in rats fed for 6 wk with diets containing 15 wt% fat, as sesame oil. raw perilla seed oil. roasted perilla seed oil, heated perilla seed oil. mackerel oil or beef tallow. TBA values of these lipids during 4 wk storage, and linolenic acid contents of three kinds of perilla seed oil were also measured. Linolenic acid contents of raw perilla seed oil. roasted perilla seed oil and heated perilla seed oil were 62.3%, 61.6% and 53.1% respectively. Raw perilla seed oil showed the lowest rate of lipid peroxidation after 4 wk storage at 4$^{\circ}C$, and mackerel oil showed the highest peroxidation rate. The plasma cholesterol levels of rats consuming diets in which the carbohydrate was rice were not affected by n-3 PUFA. Rather, the degree of peroxidation seems to have a direct effect on cholesterol levels as shown by the hypocholesterolemic effect of raw perilla seed oil and beer tallow. However. the HDL-cholesterol level was greater in rats fed either roasted perilla seed oil or mackerel oil. Rats fed roasted perilla seed oil and raw perilla seed oil had lower levels of plasma triglycerides than rats fed beef tallow. In rats fed roasted perilla seed oil, the total lipid and cholesterol contents of liver were significantly lower than in those fed the other kinds of perilla seed oil. The plasma lipid peroxide levels were lower in rats fed either roasted perilla seed oil or beef tallow.

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종실들깨와 잎들깨의 주요 특성 비교 (Comparison of Major Characteristics between Seed Perilla and Vegetable Perilla)

  • 정명근
    • 한국작물학회지
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    • 제50권spc1호
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    • pp.171-174
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    • 2005
  • 국내에서 육성된 종실용 들깨와 잎들깨 품종을 대상으로 주요특성 및 함유성분을 분석하여 용도별 들깨의 주요특성 차이를 확인한 결과를 요약하면 아래와 같다. 1. 잎들깨 품종의 평균 개화기는 9월 28일로 종실용 들깨의 평균 개화기 9월 5일보다 약 23일 늦었으며, 경장 및 마디수도 종실들깨보다 낮은 양상을 나타내어 생육상의 뚜렷한 차이를 나타내었다. 2. 종실용 들깨의 평균 천립중, 종실수량 및 기름함량이 잎들깨 품종보다 높은 양상을 나타내어 종실특성은 종실들깨가 우수하였으나, 잎 수량 및 잎 함유 안토시아닌 함량은 잎들깨 품종이 종실들깨 품종보다 각각 1.8배 및 2.1배 높은 양상을 나타내어 잎 특성은 잎들깨 품종이 우수하였다. 3. 종실용 들깨 및 잎들깨 품종의 종실 지방산 조성은 차이가 없었으며, 잎 함유 평균 엽록소 함량은 종실용 들깨가 잎들깨 품종보다 다소 높은 양상을 나타내었다.

들깨의 발아가 들깨지방질의 특성에 미치는 영향 (Effects of Seed Germination on Characteristics of Perilla Seed Lipids)

  • 최은옥;황현숙
    • 한국식품조리과학회지
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    • 제27권3호
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    • pp.51-57
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    • 2011
  • Color, lipid and fatty acid composition, and tocopherols and polyphenols contents of perilla seed lipids in response to seed germination were studied. Perilla seeds were germinated at $30^{\circ}C$ in the dark for 12, 36, or 48 h, after which total lipids were extracted by the Folch method using chloroform and methanol (2:1, v/v). Seed germination resulted in a decrease in yellowness and greenness in perilla seed lipids, but there were no significant changes in composition of the lipids including major neutral lipids (>90%). Contents of phosphatidylcholine and phosphatidylethanolamine in the perilla seed lipids significantly increased in response to germination. Linolenic acid (>63%) was the most abundant fatty acid. Seed germination tended to decrease the relative content of linolenic acid and increase the contents of oleic and stearic acids. Contents of antioxidants, especially ${\alpha}$-tocopherol and polyphenols, increased in response to seed germination. As the germination period was extended, the antioxidant content increased. Therefore, increases in useful components, phosphatidylcholine, phosphatidylethanolamine, ${\alpha}$-tocopherol, and polyphenols contents by seed germination can contribute to the improvement of perilla seed utilization in food industry.

흰깨, 검은깨, 들깨 중의 무기질 및 Saponin 함량 (Mineral and Saponin Component in white Sesame, black Sesame and Perilla Seed)

  • 김혜자
    • 대한가정학회지
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    • 제24권3호
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    • pp.79-84
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    • 1986
  • the purpose of this paper is to study on the proximate composition, mineral and saponin content in white sesame, black sesame, and perilla seed. For this purpose, we have compared six different materials: white-raw-sesame, white-roast-sesame, black-raw-sesame, black-roast-sesame, raw-perilla seed and roast perilla seed, and have come to the following results. The crude fat content was the highest in white-raw-sesame(55.3%). In all the six samples, the crude fat content in raw seeds was all higher than that in roast seeds. The crude protein content was the highest in the roast perilla seed(24.6%), and in the six samples, the crude protein content in roast seeds all higher than that in roast seeds. The total sugar content was found to be the highest in the roast perilla seed(8.29%). The reducing sugar content was higher in raw perilla seed(1.57%) than in other sample materials. The ash content was the highest in black raw-sesame(5.93%), and that percentage rates was the same as that of FAO and of Japan. Minerals like Cd. Mn. Cu. Na. Mg. Pb. and Ca. were found to be contained more in black sesame than in other sample materials. The minerals contained most in white sesame were Zn.(61.6ppm) and Fe(49.4ppm), and K was contained a little more in perilla seed than in the others. The sample materials which contain saponin most were white-roast-sesame(0.34%) and black-roast-sesame(029%).

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불포화 지방의 필요량과 안전성에 관한 연구 -들깨유의 fat level차이에 따른 rat의 혈액과 간에 미치는 영향- (Studies on the Required Amount and Safe Level of Polyunsaturated Fat -1. Effects of different levels of perilla seed oil on Blood and Liver of Rats-)

  • 이양자;강승현;송일;김혜경;이기열
    • Journal of Nutrition and Health
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    • 제12권2호
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    • pp.99-105
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    • 1979
  • This study was carried out using rats weighing $40{\sim}50\;g$ which were devided into seven groups with various diet compositions emphasizing fat levels of perilla seed oil for the period of 41/2 weeks. The levels of fat in the diet were 5%, 10%, 15% and animals were fed ad libitum. The results are as follows : 1) Yellow pjgmentation of both neck and tail was clearly observed in groups fed 10% and 15% level perilla seed oil without vitamin I supplementation (IV and VII). 2) The growth rate in groups fed 15% level perilla seed oil was reduced as compared to that in groups fed 5% or 10% level perilla seed oil. 3) The mean hematocrit values of 15% level perilla seed oil groups tended to be lower than those of control group, tut the differences were not significant. 4) The serum vitamin I concentration showed different value in various groups, the values of control group were significantly higher than those of perilla seed oil groups-15% level with or without vitamin E supplementation (VI and VII) and 10% level without vitamin E supplementation (IV). According to the results, 10% level-perilla seed oil in the diet can be considered safe if vitamin E is not omitted from the vitamin mixture ana the group fed 15% fat with P/S ratio of 1 appeared to be safe during the experimental period. Finally the long-term studios have to be persued in many aspects by using perilla seed oil in the experimental diet. Because rats are known t4 be quite resistant to the experimental diets, comparative studies using various animal species have to he conducted.

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들깨즙의 표준화에 관한 연구 -나물류에 이용되는 것을 중심으로- (A study on the standard of perilla seed soup -Utilization of NA-MOOL-)

  • 조후종;서연희;박득만;오성천
    • 한국식생활문화학회지
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    • 제12권1호
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    • pp.97-101
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    • 1997
  • To study on the standard food cooking method of perilla seed soup, author analyzed the fatty acids of the soup by gas chromatography, and estimated its appearance, flavor, taste, viscosity, and overall taste by the sensory evaluation. We measured the change of TBA (Thiobarbituric acid) values of the oil from perilla seed soup during the period of storage at $4^{\circ}C$. The results were as follows: 1. The sensory evaluation indicated the best level at the S4 group, the ratio of rice powder to perilla seed was 50 to 40. 2. The most fatty acid of S4 group (perilla seed: 40 g) was linolenic acid. 3. The TBA values of the oil from perilla seed soup increased continuously according to the storage duration at $4^{\circ}C$. According to these results, it was concluded that perilla seed soup would supplement essential fatty acid, linolenic acid.

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들깨기름의 산화안정성에 미치는 들깨 종실 발아의 영향 (The Effect of Germination of Perilla Seed on the Oxidative Stability of the Oil)

  • 김충기;송근섭;권용주;김인숙;이태규
    • 한국식품과학회지
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    • 제26권2호
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    • pp.178-183
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    • 1994
  • 들깨 종자 발아가 들기름의 산화안정성에 미치는 영향을 규명하기 위하여 햇들깨와 묵은들깨를 $28^{\circ}C$에서 $2{\sim}3$일간 발아시켜 각각의 들깨와 발아들깨로부터 들기름을 추출한 후 이들 4종류의 들기름의 화학적 조성의 변화를 검토하였다. 들기름의 종류에 따라 요오드가와 검화가에서는 커다란 차이가 나타나지 않았으나 산가의 경우 햇들깨와 묵은들깨 모두 발아들깨에서 추출한 들기름이 들깨에서 추출한 들기름보다 높았다. 중성지방질의 조성에서는 발아에 의해 triacylglycerol 함량은 감소하는 반면 유리 지방산과 diacylglycerol 함량은 증가하였다. 극성지방질중 phosphatidyl ethanolamine의 함량이 햇들깨와 묵은들깨 모두 발아에 의해 현저히 증가하였다. 들기름의 총 tocopherol 함량은 $439{\sim}560\;ppm$으로 햇들깨와 묵은들깨 모두 발아에 의해 그 함량이 증가하였으며, 특히 ${\gamma}-tocopherol$의 함량이 현저히 증가하였다. 각 들기름의 산화안정성 차이는 햇들깨에서 추출한 들기름이 묵은들깨에서 추출한 들기름보다 4배 이상 산화안정성이 높았으며 발아에 의해 묵은들깨의 경우는 산화안정성이 2배 정도 증가하였으나 햇들깨의 경우는 약간 증가하는 경향을 나타내었다.

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한국인 상용식이지방이 흰쥐의 지방대사 및 면역능력에 미치는 영향 (A Study of Korean Dietary Lipid Sources on Lipid Metabolism and Immune Function in Rat)

  • 이종미
    • Journal of Nutrition and Health
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    • 제20권5호
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    • pp.350-366
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    • 1987
  • This research was designed to study the effect of Korean dietary lipids on the lipid metabolism and the immune function in young rats . The three different lipid sources were compared lard, perilla oil and fish oil. Three different levels of lipid in the diet, 2%, 15% and 30%,on the weight basis, were included. After four weeks feeding, the rats were sacrified and blood sample was collected to analyze for the total lipid, TG and cholesterol contents in serum. The HDL fraction in serum was seperated by the electrophoresis of lipoproteins. The immune responses were measured by the blastogenesis of spleen lymphocyte stimulated by PHA and in serum were measured. The following results were obtained. Lower body weight gain was shown in 30% lipid diet fed group on the isocaloric basis. In concerning the different dietary lipid sources, there were significantly lower boyd weight gain in fish oil than in perilla seed oil and lard group in 30% lipid groups. Deposition of body fat expressed by epididymal fat pad in serum were significantly different among perilla seed oil, lard and fish oil groups. Perilla seed oil group showed lowest level of total lipid and TG in serum regardless of dietary fat level. The feeding perilla seed oil to rats was resulted in lower serum cholesterol levels than lard in all three levels of fats tested. The HDL fraction was elevated in perilla seed oil group at the high fat level. The stimulating responses of lymphycotes by PHA did not seem to be influenced by different dietary fat sources. However, conA mitogenic responses was significantly increased in perilla seed oil group. The lower level of perilla seed oil (2%, 15%) showed slightly higher responses of ConA, indicating that lower level of perilla seed oil might have stimulatory response on the immune response. The number of antibody forming cells of spleen against SRBC was increased in 30% fat level for all the three kind of fats. However, no effect has been found in plaque forming cell response by the differences in dietary fat sources. There were no significant differences in serum IgG and IgA levels in all dietary groups.

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비타민 E와 불포화 지방과의 관계 - 들깨유(油)를 중심으로 한 동물의 비교 연구 - (Relationship between Vitamin E and Polyunsaturated Fat - A comparative animal study emphasizing perilla seed oil as a fat constituent -)

  • 이양자;곽동경;이기열
    • Journal of Nutrition and Health
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    • 제9권4호
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    • pp.19-27
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    • 1976
  • Perilla (frutescens) seed oil, which is widely used as a source of vegetable oil in Korea, contains a strikingly large amount (58.4% of total fatty acids) of polyunsaturated linolenic acid (18 : 3) which is one of the essential fatty acids. Our hypothesis was that vitamin E contained in this oil would not be enough to prevent peroxidation of this polyunsaturated oil. A comparative study was carried out using rats and chicks devided into seven groups with various diet combinations emphasizing fat sources for the period of four weeks. The level of fat in each diet was 15% and animals were fed ad libitum. Various diet combinations were as follows; perilla seed oil and sesame seed oil with and without vitamin E supplementation, tallow as a saturated fat source and perilla seed hull group (10% at the expense of carbohydrate). The fat constituents of control group were consisted of 50% vegetable oil and 50% animal fat. A few important findings are as follows: 1. Rats fed perilla seed oil lost their hair focally around the neck and suffered from a bad skin lesion at the same place. In chicks, yellow pigmentation both of feather and of skin was clearly observed only in groups fed perilla seed oil with or without vitamin E supplementation. The basis of biochemical mechanisms of this phenomena remains as an important research interest. 2. The mean value for hematocrit was significantly lower for the chicks fed perilla seed oil than for those fed control diet. This result seems to be attributable to the effect on the red cell membrane known as peroxidation-hemolysis of vitamin E deficiency. 3. The serum cholesterol level was higher for the rats fed perilla seed oil than for those fed control diet, whereas in chicks the group fed perilla seed oil showed lower value than the control group indicating that different animal species could vary in their responses to the same diet. 4. In pathological examinations, the sign of hepatic fibrosis was seen in the perilla seed hull group and it was noticeable that the level of hepatic RNA was significantly increased in the rat recovering from vitamin E deficiency. It is hoped that more detailed studies on perilla seed oil and hulls will soon be carried out in many aspects especially i) at various levels of fat in the diet, ii) in relation to dietary selenium level and iii) to find an optimum level of dietary essential fatty acids in terms of P/S ratio using various animal species. In the mean time, the public should be informed to preserve this particular oil with care to minimize fatty acid oxidation and should be discouraged from overconsuming this oil. This study was supported by UB (United Board) Research Grant (Graduate School, Yonsei University, Seoul, Korea)

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Estimation of Oil Yield of Perilla by Seed Characteristics and Crude Fat Content

  • Oh, Eunyoung;Lee, Myoung Hee;Kim, Jung In;Kim, Sungup;Pae, Suk-Bok;Ha, Tae Joung
    • 한국작물학회지
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    • 제63권2호
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    • pp.158-163
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    • 2018
  • Perilla (Perilla frutescens var.frutescens) is an annual plant of the Lamiaceae family, mainly grown for obtaining oil by press extraction after roasting the seeds. Oil yield is one of its important traits, but evaluating this yield is time-consuming, requires many seeds, and is hard to adjust to pedigrees in a breeding field. The objective of this study was to develop a method for selecting high-oil-yield lines in a breeding population without oil extraction. Twenty-three perilla cultivars were used for evaluating the oil yield and seed traits such as seed hardness, seed coat thickness, seed coat proportion and crude fat. After evaluation of the seed traits of 23 perilla cultivars, the ranges of oil yields, seed hardness, seed coat thickness, seed coat proportion, 100-seed weight, and crude fat were 24.68-38.75%, 157-1166 gf, $24-399{\mu}m$, 15.4-41.5%, 2.79-6.69 g, and 33.0-47.8%, respectively. In an analysis of correlation coefficients, the oil yield negatively correlated with seed length, seed width, the proportion of seed coat, seed hardness, and 1000-seed weight, but positively correlated with crude fat content. It was observed that as the seed coat proportion increased, the seed coat thickness, hardness, and 1000-seed weight also increased. Multiple linear regression (MLR) was employed to find major variables affecting the oil yield. Among the variables, traits crude fat content and seed coat proportion were assumed to be indirect parameters for estimating the potential oil yield, with respect to a significant positive correlation with the observed oil yield ($R^2=0.791$). Using these two parameters, an equation was derived to predict the oil yield. The results of this study show that various seed traits in 23 perilla cultivars positively or negatively correlated with the oil yield. In particular, crude fat and the seed coat proportion can be used for predicting the oil yield with the newly developed equation, and this approach will improve the efficiency of selecting prominent lines for the oil yield.