• Journal of Nutrition and Health
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• v.13 no.4
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• pp.177-186
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• 1980

Experiments were carried out in order to compare the sesamol contents in the methanol extracts and unsaponifiable matters from raw and baked seeds of Korean sesame and perilla by thinchrography. The oil and sesamol contents of sesame seeds were higher than those of perilla seeds. The contents of sesamol in raw and baked sesame seeds were 0.22 and 0.096% respectively in methanol extracts and 0.41 and 0.29% respectively in unsaponifiable matters. The sesame contents in raw and baked perilla seeds were 0.0022 and 0.0043% respectively in methanol extracts and not detected in unsaponifiable matters.

• Journal of Food Hygiene and Safety
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• v.2 no.2
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• pp.83-88
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• 1987

Effects of the extraction-methods and solvents on some minor components in crude rapeseed-oil and the autooxidation of the oils were examined in this study. The contents of unsaponifiable matters and sterols were not significantly variied depending on the extraction-methods and solvents. Chlorophyll-contents were elevated with the increasing molecular weights of extractionsolvents. Any significant effect of the extraction-temperature on the yield of chlorophyll was not observed. Autoxidation-tendency of the oils was found to be dependent on the boiling points of extraction-solvents.

• Journal of the Korean Applied Science and Technology
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• v.4 no.1
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• pp.9-18
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• 1987

The effects of procedures for preparation of fatty acid methyl esters for gas chromatography were investigated. A quantitative comparison of four procedures for the preparation of the fatty acid methyl esters from Korean sesame seed lipids which can be representative of fatty acid ranges of Korean vegetable oils has been made. The procedures employed were $BF_3$-methanol, HCI-methanol, sodium methoxide-methanol, and tetramethylammonium hydroxide-methanol. Twelve fatty acids ranged from 14:0 to 24:0 were identified in the lipids from Korean white and black sesame seeds. All four procedures gave similar results for the fatty acids, 16:0, 18:0, 18:1, 18:2, and 18:3 present in the range of $1{\sim}44%$ but only in the HCI-methanol procedure, the fatty acids, 16:1, 20:0, 22:0, 24:0 present in the range of $0.02{\sim}1%$ showed the lowest values. When using tetramethylammonium hydroxide-methanol procedure for determination of total fatty acid composition from white and black sesame seed lipids, unsaponifiable matters including sesamol, sesamolin and sesamin present in the seed lipids are not removed from the resulting reaction mixture. Thus the transesterification mixture is used without further treatment for injection into the gas chromatography. However, the gas chromatographic analysis of the transesterification mixture showed that the unsaponifiable matters had no effect on the fatty acid composition of the seed lipids. From the results, it appears that the $BF_3$-methanol, sodium methoxide-methanol and tetramethylammonium hydroxide-methanol procedures can be used to prepare fatty acid methyl esters from Korean vegetable oils. Among the methods, the tetramethylammonium hydroxide-methanol procedure, which give total fatty acid composition, glyceride fatty acid composition and composition of free fatty acids present, appears to be a simple, convenient and quantitative procedure and applicable to samples containing broad ranges of fatty acids.

• Journal of the Korean Society of Food Science and Nutrition
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• v.14 no.4
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• pp.365-369
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• 1985

In order to examine the effect of oil extraction methods on the characteristics of sesame oil, the unsaponifiable matters, fractionation sterol pattern and sterol compositions of the each fraction of the oil were compared in the oil extracted by the three different extraction methods, that is, pressure extraction of roasted seed (RTP), acetone extraction of roasted seed(RTE) and acetone extraction of raw seed(RWE). The amount of unsaponifiable in RWE oil was silghly higher as 31.8mg per 1mg drying oil than that in RTP oil of 26.1mg. Sesame oils from three different extraction methods were found to contain $0.26{\sim}0.32%$ free, $0.23{\sim}0.42%$ bound, and $0.49{\sim}0.64%$ total sterol. The content of free sterol in RWE oil was higher as 0.32% than that in RTE and RTP oil of 0.26%, and that of sterylglycoside in RTE oil was lower as 0.12% than that in RTP and RWE oil of 0.23%, but that of sterylester was a little difference. The unsaponifiable matter from fractionation sterol in sesame oil by three different extraction methods was fractionated into less polor compounds, 4,4-dimethyl-, 4-monomethyl-, 4-desmethylsterol fraction by thinlayer chromatography, and sterol composition of 4-desmethylsterol fraction was analyzed by gas liquid chromatography. The major sterols were campe-, stigma-, sito-, and ${\Delta}^5-avenasterol$, but, specially, unknown sterol(RRT:1.35) was found as $23.5{\sim}26.4%$ in total sterols, The content of sitosterol, ${\Delta}^5-avenasterol$, campesterol and stigmasterol were $59.9{\sim}60.3%,\;8.1{\sim}11%,\;16.1{\sim}18.4%,\;11.6{\sim}12.8%$ of the total sterol in free sterol fraction, $37.3{\sim}46.9,\;11.6{\sim}14.2,\;6.6{\sim}9.0$, and $6.1{\sim}8.0%$ of the total sterol in sterylglycoside fraction, $55.9{\sim}59.9,\;9.2{\sim}11.4,\;17.1{\sim}18.9$, and $11.8{\sim}13.7%$ of the total sterol in sterylester fraction, and $39.3{\sim}42.9,\;13.0{\sim}17.2,\;9.1{\sim}11.0$ and $7.4{\sim}11.5%$ of the total sterol in total sterol fraction. But the effect of oil extraction methods on sterol composition in sesame oil were hardly found.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.15 no.1
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• pp.59-73
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• 1982

Differences of lipids, especially total lipid composition, fatty acid and sterol composition of the flesh lipids between three species of cephalopods were investigated, since available researches concerning lipids in flesh tissues of the cephalopod are very limited. Extracted total lipid from the flesh tissues were fractionated by silicic acid column chromatography into three lipid classes of neutral lipids, glycolipids and phospholipids. The lipid compositions of total lipid and neutral lipids were estimated by the method of thin layer chromatography and TLC-scanner. The sterol compositions of unsaponifiable matters from total lipid were determined by using thin layer chromatography and gas-liquid chromatography. The fatty acid composition of each lipid class was also determined by gas-liquid chromatography. Total lipid contents of flesh tissues from three species of the cephalopods were 0.5 in Octopus vulgare, 0.8 in Octopus variabilis and $0.6\%$ in Loligo beka based on wet weight, the contents of total fatty acid in total lipid were 19.3, 47.8 and $38.4\%$, and the contents of unsaponifiable matters were 10.9, 18.8 and $41.1\%$, respectively. Total lipid was mainly composed of sterols and polar lipid-pigments as major components in each sample and the proportion of sterols and polar lipid-pigments to total lipid ranged from 27.0 to $35.5\%$ and 38.3 to $63.4\%$, respectively. The other lipid components of total lipid, e.g. triglycerides, free fatty acids, and carbohydrate-esterified sterols were determined as a minor components. The major component fatty acid in total lipid was palmitic acid and additionaly it chiefly consisted of the other unsaturated acids such as oleic, linoleic, octadecatetraenoic and eicosapentaenoic acid as major components of the acid. The compositions of sterol in three species of cephalopod were found to contain mainly cholesterol for its proportion to total sterols was 82.4 to $89.1\%$. However the other sterols such as 22-dehydrocholesterol and 24-methylenecholesterol were determined in addition to cholesterol as a minor components. The result of fractional composition of lipid class in total lipid was that total lipid had large .amount of polar lipid and small amount of nonpolar lipid i, e, neutral lipid in each sample, and the contents of phospholipid were higher than that of glycolipid in polar lipid. Neutral lipid was mainly composed of free sterol as major components in each sample and its proportion of free sterols to total neutral lipid was 50.0 to $70.5\%$. The other lipid components of neutral lipid showing similar in quantity, esterified sterols, free fatty acids and triglycerides were determined as a minor components. The major components fatty acid in neutral lipid were palmitic, oleic and hexadecadienoic acid. Palmitic acid was the most abundant and additionaly oleic, linoleic, octadecatetraenoic and myristic acid were the major component fatty acid in glycolipid. But, especially, glycolipid of Loligo beka contained a higher amount of arachidonic acid which also consists of major component in addition to those of acids. Palmitic acid was the most abundant and additionaly, oleic, linoleic and octadecatetraenoic acid were the major component fatty acids in phospholipid.

• Korean Journal of Food Science and Technology
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• v.10 no.4
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• pp.409-414
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• 1978

The total amount of lipid content in the mullet roe is 20.5%, and iodine value and unsaponifiable matters content are 118 and 38.7%, respectively. The lipid composition of the muscle, roe and liver of the mullet, Mugil cephalus, shows differences. Triglyceride, wax esters, and free fatty acids are mainly contained in the lipids of the muscle, roe and liver, respectively. The mullet roe lipids are mainly composed of 59.1% of wax esters with a trace of sterol esters, 26.9% of polar lipids with pigments, 9.0% of triglyceride plus a trace of free fatty alcohols and fatty acids, and 3.0% of sterol contaminated with a trace of fatty alcohols. The major fatty acids of wax esters are C16 : 0, 47.5%, C18 : 1, 23.0%, C16 : 3, 6.5%, C20 : 5, 4.0%, those of triglyceride are C16 : 1, 25.1%, C18: 1, 16.7%, C16 : 0, 16.3%, C22 : 1, 7.9%, C18 : 0, 5.5%, C22 : 6, 4.4%, and those of polar lipids are C16 : 0, 35.0%, C18 : 1, 24.7%, C16 : 1, 6.1%, C20 : 5, 5.3%, C22 : 6, 4.2%. The major alcohols of wax esters are 51.0% of cetyl alcohol, 18.2% of palmitoleyl alcohol, and 10.7% of oleyl alcohol, and considerable amounts of odd-numbered alcohols such as C15 : 0, C15 : 1, C17 : 0, C17 : 1 and C19 : 1 are also found.

• Journal of the Korean Society of Food Science and Nutrition
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• v.16 no.2
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• pp.118-122
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• 1987

In order to find the effect of the storage time on the characteristics and sterol composition of the sesame seed, the characteristics, unsaponifiable matters, fractionation pattern of sterol and sterol compositions of 4-desmethylsterol on the sesame seed oil were analysed at the harvest time and after 56 months storage. The sample seed was kept in cotton bag within the natural dark store room. The oil content was decreased from 50.3g per 100g sesame seed at harvest time to 45.5g at 56 months stored. The acid value was increased sharply from 1.8 to 13.4 during the storage of sesame seed and iodine value was increased small, but saponification value and refractive index were hardly changed. The amount of unsaponifiables from 24.3mg to 20.9mg per gram on basis during storage time, and the 4,4-dimethylsterol and 4-monomethylsterol from unsaponifiables were decreased, otherwise, 4-desmethylsterol was increased. In the changes of sterol composition in the 4-desmethylsterol fraction from unsaponifiables, the compesterol and stigmasterol content were not nearly changed, otherwise, the sitosterol content was decreased from 51.0% to 48.2%, but the content of ${\Delta}^5-avenasterol$ was increased from 15.2 % to 18.4% during the storage of sesame seed within 56 months.

• Journal of the Korean Society of Food Science and Nutrition
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• v.19 no.4
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• pp.291-300
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• 1990

The lipid compositions including fatty acid sterol lipid class and the lipid component of the total lipid extracted from the flesh of some fresh water fishes I. e. mandarin cornet cat fish and Korean perch were compared. The levels of total lipid of flesh tissues from the fresh water fishes were high(7.4%) in cat fish but low(1.4-2.2%) in mandarin fish Korean perch and cornet fish. On the contrary the content of unsaponifiable matters found in total lipid was low(2.6%) in cat fish but high(6.0%-6.5%) in mandarin fish Korean perch and cornet fish. Total lipids were mainly composed of triglyceride(74.6-86.5%) as major component in each sample and the other lipid components of total lipid e. g. polar lipid free fatty acids and free sterol were the minor components, The major fatty acids in total lipid of each sample were{{{{ {C }_{16 { }:_{ }0 } }}}}(19.6-29.2%) {{{{ {C }_{16 { }:_{ }1 } }}}}(17.3-30.7%) and {{{{ {C }_{18 { }:_{ }1 } }}}}(16.8-29.2%) and additionally it chiefly consisted of {{{{ {C }_{14 { }:_{ }0 } }}}} and {{{{ {C }_{18 { }:_{ }2 } }}}} Particularly the contents of polyenoic acids in total lipid of cat fish were higher than those of the other fish samples. The level of cholesterol in total lipid was low (8.3mg/g) in cat fish but were high(36.9-59.9mg/g) in mandarin fish Korean perch and cornet fish. The contents of fractionated neutral lipid(NL) were higher than those of polar lipid(PL) in each sample. Particularly phospholipid content in PL was low(6.0%) in cat fish but were high(23.1-36.3%) in mandarin fish Korean perch and cornet fish. Neutral lipids were mainly consisted of triglyceride(84.5-93.4%) as amjor component in each sample and the other lipid components of neutral lipid e, g, free fatty acids and free wterol were exhibited as a minor components, The fatty acid compositon of neutral lipids was very resembled to total lipids. The phospholipid in mandarin cornet and cat-fish were mainly composed of phosphatidyl serine(23.1-49.8%) and phosphatidyl choline(20.8-45.3%) The relatively higher amounts of phosphatidyl serine were observed in mandarine cornet and cat-fist than in Korean perch, But phosphatidyl ethanolamine(42.3%) and phosphatidyl choline (49.9%) were the main phospholipid in Korean perch. The extraordinary high content of phos-phatidyl ethanolamine compared to other fishes was characteristics in phospholipid composition of Korean perch. The major fatty acids in phospholipid of each sample were {{{{ {C }_{16 { }:_{ }0 } }}}} (38.3-46.5%) {{{{ {C}_{18 { }:_{ }0 } }}}}(14.2-21.7) and C16:1(11.6-13.8%) and additionally it chiefly consisted of C18:2, C18:0 and C17:0 The major fatty acids in glycolipid of each sample were C16:0(28.8-40.1%) C18:1(5.4-29.9%) C18:0(5.1-28.9%) and C16:1(8.2-20.1%) and additio-nally it chiefly consisted of C14:0 and C20:1.

• Korean Journal of Fisheries and Aquatic Sciences
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• v.18 no.4
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• pp.297-308
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• 1985

Differences in lipid composition including fatty acid, lipid class, sterol and especially carotenoid between fleshes of wild and cultured prawn, Penaeus japonicus, were studied. Total lipids were extracted from the flesh during the spawning period and fractionated into two lipid classes of polar and nonpolar lipids by silicic acid column chromatography. The fatty acid composition of each lipid classes, total lipid (TL), nonpolar lipid (NL) and polar lipid (PL) were analyzed by gas liquid chromatography. The sterol and carotenoid composition of total lipids were determined by using thin layer chromatography, gas liquid chromatography and column chromatography using MgO-celite 545 and silicic acid-celite 545 as an absorbent, and by UV spectrophotometry. Total lipid contents of both fleshes from the wild and cultured prawn were about $2.0\%$ on average, but the content of the unsaponifiable matters in the cultured prawn (about $16.2\%$ in total lipid) showed a little higher than that of the wild prawn (about $13.9\%$ in total lipid) and the ratio of NL to PL in total lipid was 1:1.7. In the fatty acid composition of TL, the contents of $Cl_{16:0}\;and\;C_{20:3}$ fatty acids were higher in wild prawn than in cultured prawn, while the contents of $Cl_{18:1}\;and\;C_{20:5}$ fatty acids in cultured prawn were higher than those in wild prawn. The cultured prawn contained higher amounts of monoenoic acids and lower amounts of polyenoic acids than the wild prawn. In the fatty acid composition of NL, the wild prawn showed higher levels in $Cl_{18:0}\;and\;C_{20:1}$ fatty acid contents than the cultured prawn, while the cultured prawn contained much amout of $Cl_{16:0}\;and\;C_{18:1}$ fatty acids. On the other hand, the fatty acid composition of PL showed that $Cl_{16:1}\;and\;C_{17:1}$ fatty acid were higher in the wild prawn than in the cultured prawn, but in $Cl_{16:0}\;and\;C_{18:1}$ fatty acids, the levels were reversed. Consequently, the cultured prawn contained higher amount of monoenoic acids, and similar amounts of saturated acids and polyenoic acids to the wild prawn in NL. And the cultured prawn contained lower amount of monoenoic acids, and similar amounts of saturated acids and polyenoic acids to the wild prawn in PL. In sterol composition of both the wild and cultured prawn, the predominant sterol was cholesterol with the proportion of $78.7{\sim}88.9\%$ to the total sterol. In addition to the cholesterol, the other minor sterols such as 24-methylene cholesterol and sitosterol were detected. Total carotenoid content in flesh of the wild prawn was relatively higher than that of the cultured prawn marking 70 mg/100g of lipid in wild prawn and 40 mg/100 g of lipid in cultured prawn, respectively. The main carotenoids of the both prawns were astaxanthin($54.1{\sim}60.8%$), phoenicoxanthin ($16.5{sim}22.9%$),${\bata}-carotene\;(20.0{\sim}22.0%)$.

• Journal of the Korean Society of Food Science and Nutrition
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• v.12 no.4
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• pp.407-419
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• 1983

In this study, the lipid components of three species of shellfish included oyster(Crassostrea gigas), top shell(Turbo cornutus) representing salt water shellfish and corb shell(Corbicula fluminea producta) representing flesh water shellfish were analysed and nutriontional significances were discussed. Analysed the total lipid composition, and the fatty acid and sterol composition of total lipid were determined. The lipid was fractionated into three lipid classes neutral, glyco and phospholipid by column chromatography. The fatty acid composition of each lipid class and sterols were determined by gas liquid chromatography. The lipid components of total lipid and neutral lipid were estimated by thin layer chromatography and TLC scanner. The results were as follows: Total lipid contents of shellfish were 1.8% in oyster, 0.4% in top shell and 4.0% in corb shell. The contents of total fatty acid in total lipid were 80.7, 71.2 and 73.2%; and the contents of unsaponifiable matters were 15.4, 18.1 and 23.1% respectively. Total lipids were mainly composed of triglycerides, polar lipid-pigments and sterols as major component, and hydrocarbon-esterified sterols were determined in each sample. The major fatty acids in total lipid were palmitic(37.0%), eicosapentaenoic(13.5%) and linoleic acid(11.2%) in oyster, Octadecatetraenoic(15.8%), palmitic(11.2%), oleic(8.6%) and linoleic acid(8.1%) in top shell, but palmitic(34.0%), linoleic(12.3%) and paimitoleic acid(9.8%) in corb shell. Particularly, the contents of eicosapentaenoic acid of oyster and top shell were higher than those of corb shell. Sterol composition from three species of shellfish were mainly consisted of cholesterol (42.7~64.0%), brassicasterol(15.6~24.7%) and 24-methylenecholesterol (4.7~21.9%). But sitosterol (5.3%) was detected only in oyster and 22-dehydrocholesterol(12.9%) was only in top shell. The contents of fractionated neutral lipid was commonly higher than that of polar lipid in each sample. Glycolipid and phospholipid in polar lipid showed similar in quantity. The neutral lipids were composed of triglycerides(33.0~36.7%), free sterols(25.7~31.2%), esterified sterol(12.4~23.7%) and free fatty acids(5.1~11.7%). The contents of triglycerides and free sterols were higher than those of free fatty acids and esterified sterols. The major fatty acids in neutral lipid were palmitic(28.4~26.4%) eicosapentaenoic(18.6~21.9%) and linoleic acid(9.0~5.4%) in oyster and corb shell but octadecatetraenoic(14.5%), eicosapentaenoic (13.5%) and palmitic acid(12.3%) in top shell. The major fatty acids in glycolipid were eicosenoic(10.2%), palmitic(12.1%) and linolenic acid (10.2%) in oyster, Eicosenoic(26.0%), octadecatetraenoic(14.6.%) and eicosadienoic acid(12.9%) in top shell. But eicosadienoic(21.4%) stearic(14.6%), octadecatetraenoic(8.5%) and eicosenoic acid(8.5%) in corb shell. The major fatty acids in phospholipid were myristic(16.0%), stearic(10.6%), eicosenoic(10.5%) and palmitic acid(10.3%) in oyster, Oleic(22.2%), stearic(20.7%) and linolenic acid (11.8%) in top shell but eicosapentaenoic(25.1%), myristic(8.7%) and arachidonic acid(8.3%) in corb shell.