Kim, Jae-Kwan;Lee, Myung-Jin;Kim, Myung-Gill;Kim, Kyung-A;Park, Eun-Mi;Kim, Young-Sug;Ko, Hoan-Uck;Son, Jin-Seok
Journal of Food Hygiene and Safety
/
v.21
no.4
/
pp.204-212
/
2006
This study was conducted to investigate the possibility of rapid and non-des tructive evalution of AV (Acid Value), IV (Iodine Value) and fatty acids in sesame oils. The samples were scanned over the range $400\sim2500nm$ using transmittance spectrum of NIRS(Near-infrared spectroscopy). A calibration equation calculated by MPLS regression technique was developed and correlation coefficient of determination for AV, IV, palmitic acid, stearic acid, linoleic acid and linolenic acid content were 0.9907, 0.9677, 0.9527, 0.9210, 0.9829, 0.9736 and 0.9709 respectively. The validation model for measuring the AV content had R of 0.989, SEP of 0.058 and IV content had R of 0.944, SEP of 0.562 and palmitic acid content had R of 0.924, SEP of 0.194 and stearic acid content had R of 0.717, SEP of 0.168 and oleic acid content had R of 0.989, SEP of 0.221 and linoleic acid content had R of 0.967, SEP of 0.297 and linolenic acid content had R of 0.853, SEP of 0.480 by MPLS. The obtained results indicate that the NIRS procedure can potentially be used as a non-destructive analysis method for the purpose of rapid and simple measurement of AV, IV and fatty acids in sesame oils.
Journal of the Korean Society of Food Science and Nutrition
/
v.12
no.3
/
pp.259-263
/
1983
This experiment was carried out to investigate the effect of pH at coagulation on fatty acid and sterol composition of green LPC. Green juice of Italian ryegrass, red clover, oats and alfalfa was adjusted at pH 4, 6, 8 and heated at $85^{\circ}C$ for ten minutes. Green LPC was taken from the above green juice. The results obtained were as follows. 1. Green LPC of Italian ryegrass, oats and alfalfa contained much on the order of linoleic acid, palmitic acid and linolenic acid. Methyl ester of these three fatty acid accounted for 70.4% to 86.2% of total fatty acid methyl ester. Green LPC of red clover contained much palmitic acid, linoleic acid, and linolenic acid. These three fatty acid methyl ester accounted for 82.5% to 86.2% of total fatty acid methyl ester. 2. Linolenic acid was highest in the green LPC of red clover, oats and alfalfa which was adjusted at pH 8 and heated and coagulated, and next at pH 6, and pH 4, respectively. Linolenic acid was highest in the green LPC of Italian ryegrass which was adjusted at pH 6, next pH 8, and pH 4. 3. Green LPC of red clover and alfalfa contained cholesterol. The all green LPC contained campesterol, stigmasterol and sitosterol. 4. Sterol was highest in the green LPC of Italian ryegrass, red clover and oats which was adjusted at pH 8 and next at pH 4, and pH 6, respectively. Sterol was highest in the green LPC of alfalfa which was adjusted at pH 8, and next at pH 6, and pH 4, respectively.
Yang, Soo Dong;Bae, Man Jong;Yoon, Sang Hong;Choi, Cheong
Journal of the Korean Society of Food Science and Nutrition
/
v.12
no.3
/
pp.189-195
/
1983
Changes of lipid composition in the Improvement-Meju inoculated with Aspergillus oryzae were examined. To investigate those changes systematically, silicic acid column chromatography was used for analysis of glycolipid, neutral lipid, phospholipid, and gas chromatography to examine the change of those fatty acid content. Following results were obtained. The lipid fraction obtained from soaked soybean and cooked soybean were mainly composed of about 93~94% neutral lipid, whereas phospholipid and glycolipid was 4.0~5.0%, 2.0~2.1% level, respectively. During meju incuvation period, neutral lipid decreased gradually, but glycolipid and phospholipid increased. Among the nonpolar lipids prepared from cooked soybean and soaked soybean, triglyceride content was mainly composed of 88~89%, and the content of sterol ester, free fatty acid, diglyceride and sterol was higher in soaked soybean than in cooked soybean. During meju incuvation period, triglyceride content decreased remarkablely, whereas content of sterol ester, free fatty acid and diglyceride increased gradually. From the soaked soybean and the cooked soybean, the fatty acids content of crude lipid, neutral lipid, glycolipid and phospholipid were composed of linoleic acid 54~70%, oleic acid 20.0~22.6%, palmitic acid 11.0~12.4%, linolenic acid 6.0~7.8% and stearic acid 3.4~4.3% in turn and myristic acid showed the trace, palmitic acid was a little higher in glycolipid and phospholipid than in crude lipid and neutral lipid. During meju incuvation period, the change of fatty acid content showed linoleic acid and linolenic acid reduction gradually in the neutral lipid, glycolipid and phospholipid. On the other hand, palmitic acid, stearic acid and oleic acid increased gradually, the maximum value was at the 4-days. The change of glycolipid fatty acid and phospholipid fatty acid was examined. 9-kinds including traced 3-kinds was detected. It was supposed that traced 2-kinks was occurred for incuvation, and those are the matter investigating in the future.
Free fatty acid (FFA) intake regulates blood pressure and vascular reactivity but its direct effect on contractility of systemic arteries is not well understood. We investigated the effects of saturated fatty acid (SFA, palmitic acid), polyunsaturated fatty acid (PUFA, linoleic acid), and monounsaturated fatty acid (MUFA, oleic acid) on the contractility of isolated mesenteric (MA) and deep femoral arteries (DFA) of Sprague-Dawley rats. Isolated MA and DFA were mounted on a dual wire myograph and phenylephrine (PhE, $1-10{\mu}M$) concentration-dependent contraction was obtained with or without FFAs. Incubation with $100{\mu}M$ of palmitic acid significantly increased PhE-induced contraction in both arteries. In MA, treatment with $100{\mu}M$ of linoleic acid decreased $1{\mu}M$ PhE-induced contraction while increasing the response to higher PhE concentrations. In DFA, linoleic acid slightly decreased PhE-induced contraction while $200{\mu}M$ oleic acid significantly decreased it. In MA, oleic acid reduced contraction at low PhE concentration (1 and $2{\mu}M$) while increasing it at $10{\mu}M$ PhE. Perplexingly, depolarization by 40 mM KCl-induced contraction of MA was commonly enhanced by the three fatty acids. The 40 mM KCl-contraction of DFA was also augmented by linoleic and oleic acids while not affected by palmitic acid. SFA persistently increased alpha-adrenergic contraction of systemic arteries whereas PUFA and MUFA attenuated PhE-induced contraction of skeletal arteries. PUFA and MUFA concentration-dependent dual effects on MA suggest differential mechanisms depending on the types of arteries. Further studies are needed to elucidate underlying mechanisms of the various effects of FFA on systemic arteries.
The composition of glycolipids and phospholipids of milled rice grain were studied for four nonglutinous and two glutinous varieties grown in Korea. Main classes of the glycolipids were esterified sterylglycosides, monogalactosyl diglycerides, steryl glycosides, digalactosyl diglycerides and cerebrosides in both of nonglutinous and glutinous, and no differences in individual content of the classes between both varieties. Of the phospholipids, Iysophophatidyl cholines, phosphatidyl cholines, phosphatidyl ethanolamines, phosphatidyl inositols and phosphatidyl serines were the major components, comprising oveer 85% of this class, and smaller amounts of diphosphatidyl glycerols and phosphatidyl glycerols were present. There was significant differences individual content of the phospholipid classes between both varieties. The major fatty acids of glycolipids and phospholipids fractions were palmitic, linoleic and oleic acids in both of nonglutinous and glutinous varieties. But content of palmitic acid in glycolipids fraction and stearic, oleic and linoleic acids in phospholipids fraction showed significant differences between both varieties.
Journal of the Korean Society of Food Science and Nutrition
/
v.14
no.3
/
pp.280-283
/
1985
Lipid fractions of the roots of cultured (five years old) and wild (eight years old) Codonopsis lanceolata were analyzed. The most abundant fraction of the lipids extracted from cultured and wild roots of C. lanceolata was neutral lipid and the next came phospholipid and glycolipid in descending order. The percentage, however, of the neutral lipid in total lipid was comparatively low, while that of phospholipid, particularly high; 41.30% and 29.34% in that of cultured and wild one respectively. The richest fraction of neutral lipid was triglyceride; 39.49% and 32.88% in the cultured and the wild respectively, and followed by sterol esters and free acid. Noticed amounts of sterol esters and monoglycerides which is able to be used as an emulsifiers, were contained in the neutral lipid of roots; 27.74% and 5.11% respectively. The unsaturated fatty acid fraction of the total lipid hydrolyzate contained in cultured and wild C. lanceolata roots was 72.87% and 74.37% respectively. The main fatty acid contained in the total lipid hydrolyzate was linoleic acid, and followed by linolenic acid palmitic acid. The main saturated fatty acid was palmitic acid and lauric acid.
Kim, Young-Boong;Jeon, Ki-Hong;Lee, Nam-Hyuk;Lee, Hyun-Jung
Food Science of Animal Resources
/
v.28
no.1
/
pp.21-26
/
2008
This study was carried out to evaluate the nutritional properties of spreadable liver product. The composition of fresh hog liver used as raw material was 70.5% moisture, 5.2% fat, 20.3% protein and 1.2% ash. The composition of the spreadable liver product was 55.3% moisture, 19.4% protein, 21.6% fat and 3.7% ash. The total amino acid content of fresh liver was 18.69 g/100 g with glutamic acid at the highest level of 2.57 g/100 g. The total amino acid content of liver product was 18.03 g/100 g with glutamic acid at 2.28 g/100 g. The essential amino acid content was found to be 42% of total amino acids. The fatty acid analysis of fresh liver revealed oleic acid to be present at the highest level of 28% in the unsaturated fatty acid portion, and palmitic acid to be highest at 20.7% in the saturated fatty acid portion. The oleic acid content of the liver product was 40%, and the palmitic acid content was 20.4%. The level of cholesterol in fresh liver was 178.0 mg/100 g compared to 118.0 mg/100 g in the liver product. Regarding mineral analysis, the K and P contents of fresh liver were 362.2 mg/100 g and 339.1 mg/100 g, respectively, and 336.1 mg/100 g and 213.3 mg/100 g in the liver product, respectively. Many other minerals including Na, Mg, Ca and Fe were present in the product. Based on these results, the spreadable liver product made with hog liver was found to be a quality food with nutritional benefits and that is easy to consume.
This study was performed for increasing the consumption and developing the function of pumpkin(Cucurbita moschata DUCH.) seed. The changes of the contents of general chemical compositions, fatty acids, amino acids, ascorbic acid and ${\beta}$-carotene during sprouting were analyzed. Also, the bitter taste, which was produced during sprouting, were purified by using thin layer chromatography and preparative high pressure liquid chromatography. The purified bitter compound was identified by mass spectrum and nuclear magnetic resonance($^1$H '||'&'||' $\^$13/C-NMR). Weight of pumpkin seed sprout was increased to 348.4% and the length of stem was dramatically increased at 8 days. In each head and stem parts of the pumpkin seed sprout, the contents of protein and lipid were decreased, however, the contents of fiber, ash and soluble inorganic nitrogen were increased. The fatty acids of the pumpkin seed sprout were mainly represented as linoleic acid, oleic acid, palmitic acid and stearic acid. During sprouting, palmitic acid was gradually increased, reversely, linoleic acid was gradually decreased. The general amino acids of head part in the pumpkin seed sprout grown at 23$^{\circ}C$ during 8 days were orderly more contained glycine, alanine, arginine, cystein and proline. Those of free amino acids were orderly more contained arginine, threonine, alanine and glutamine. The contents of L-ascorbic acid and ${\beta}$-camtene of the pumpkin seed sprout were gradually increased with increasing sprouting days. The bitter taste material of head part of the pumpkin seed sprout was detected at Rf value 0.72 on silicagel TLC plate and separuted as one peak by HPLC. The chemical structure of the puified bitter compound was identified as a cucurbitacin glycoside by MS and NMR. The content of bitter compound at 8 days was contained 42.2 mg per 1kg sprout head.
The results from the determination of contents of components in Schizandra nigra are as follows. The contents of malic acid and citric acid in Schizandra nigra was 38,691 and 3,330 ppm/dry weight 100g. The contents of total phenolic compounds in Schizandra nigra was 1.560%. The predominating phenolic acid was cinnamic acid, gentisic acid, coumalic acid, chlorogenic acid and ferulic acid. Contents of crude lipids in Schizandra nigra was 160.5mg/g. Most of fatty acid in lipids was oleic acid, linoleic acid and linolenic acid as a unsaturated fatty acid, and palmitic acid as a saturated fatty acid. In case of essential oils, The predominating components in Schizandra nigra was caryophyllene, calarene, cubebene, acoradiene and $\beta$-himachalene.
Kim, Hyun-Young;Hwang, In-Guk;Woo, Koan-Sik;Kim, Kyoung-Ho;Kim, Kee-Jong;Lee, Choon-Ki;Lee, Jun-Soo;Jeong, Heon-Sang
Journal of the Korean Society of Food Science and Nutrition
/
v.39
no.11
/
pp.1700-1704
/
2010
This study was investigated the changes of chemical components in winter cereal crops before and after germination for development of functional foods. The contents of general composition (crude protein, lipid, and ash), phytic acid, free sugar, mineral, and fatty acid were analyzed. Crude ash content was slightly decreased after germination but protein contents was slightly increased in oats after germination. Phytic acid content showed the highest increase from 1.09 to 1.56 mg/g in oats after germination. Glucose contents of rye and wheat increased 6 and 3.5 folds after germination, respectively. Also, maltose contents of oat and wheat increased 7.4 and 5.5 folds, respectively. Major fatty acids were palmitic acid, oleic acid and linoleic acid. After germination, palmitic acid and linoleic acid decreased while oleic acid increased in oats and barley. Further studies are needed to investigate the functional components and biological properties of winter cereal crops after germination.
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