• Korean Journal of Food Science and Technology
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• v.4 no.2
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• pp.134-139
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• 1972

The contents and their seasonal changes of non-volatile organic acids and sugars of various fruits in Korea, apricot(maesil), peach, grape, apple and pears were measured. The organic acid contents were determined by gas chromatography and the free sugars were detected by thin layer chromatography. The results were as follows: 1) The common non-volatile organic acids found in those fruits were oxalic, fumaric, succinic, maleic, tartaric and citric acids: though their contents varied from almost none to 3430mg/100g. 2) Malic acid was contained in all above fruits with generally the highest contents ranging $18{\sim}3430mg/100g$ among different fruits. In every fruits oxalic was the least contained among other organic acids, almost none to trace except apricot(maesil) which contained 10.8mg/100g. 3) It seemed that generally all the non-volatile acids contents decreased after ripening except maleic acid and the cases of an apple and a pear varieties where they increased. 4) Glucose and fructose were detected in all fruits both matured and unripened by thin layer chromatography. Maltose was found in apricot(maesil), peach, grape and apple. Sucrose was detected in apricot(maesil), peach, grape, apple and pear.

• Journal of the Korean Society of Food Science and Nutrition
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• v.25 no.4
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• pp.654-658
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• 1996

Organic acid content and volatile aroma components in Jehotang were investigated. Organic acids were detceted by HPLC and it is composed of formic acid(0.07%). lactic acid(0.22%) acetic acid (0.32%), and citric acid(3.17%), the last of which is one of the noteworthy features of Jehotang contributing greatly to its sour flavor and taste. Among the 39 volatile aroma components, whose peaks were identified by GC/MSD, and whose structures were analyzable, 17 kinds of hydrocarbon(30.81%) one kind of aldehyde(7.18%), 2 kinds of ketone(4.79%), 8 kinds of terpene(25.96%) a variety of acids (16%), 2 kinds of alcohol(5.42%), 2 kinds of phenol(2.76%) and 3 kinds of the others(7.68%) were found. The hydrocarbons, terpenes and acids occupied 70% of the aroma components, contributing to and also composing the particular flavor of Jehotang. Extracted pigments from the Jehotang showed maximum light absorbance in the wave length ranges of 200~400nm, showing a high degree of light adsorption of yellow to red color.

• Korean Journal of Food Science and Technology
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• v.21 no.3
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• pp.370-374
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• 1989

This study was conducted to examine the effects of salt concentrations (1,2 and 37)) and storage periods on the characteristics of Kakdugi (Korea seasoned pickles of cubed radish roots) stored at $20^{\circ}C$. The sensory characteristics, pH, titratable acidity, non-volatile organic acids were measured. The results of sensory evaluation on Kakdugi containing 1,2 or 30% sodium chloride stored for 4 or 8 days indicated that there were significant differences among them expecially ill firmness, crispness and salty taste. As storage period increased, titratable acidity, sour taste, non-volatile organic acid contents of the samples increased. The changes were greater in Kakdugi with 2% sodium chloride. Major non-volatile organic acids were identified as lactic acid, citric acid and succinic acid. The sour taste of Kakdugi was closely related to the contents of non-volatile organic acid and titratable acidity.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.34 no.2
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• pp.204-210
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• 1989

Normally cultured, harvested and yellowed leaves of aromatic tobacco variety. KA 101 were sun-cured under conventional polyethylene film house, air-cured in burley curing barn, and bulk-cured at three temperatures of 40$^{\circ}C$, 50$^{\circ}C$ and 60$^{\circ}C$. respectively, to investigate the effects of curing conditions on quality and chemical properties of leaf tobacco. Air-cured leaves had the poorest quality by price with little difference between that of sun-cured and three bulk-cured ones. Air-cured leaves were higher in ammonia nitrogen, protein nitrogen, total nitrogen, ash content and pH, but lower in sugar content when it compared with those of sun-cured and three bulk-cured ones. The curing variables tested did not affect the content of pet. ether ext. and volatile organic acids. The content of pet. ether ext., volatile organic acids, and most of volatile neutrals tended to decrease or not to change as the bulk-curing temperature increased. A quality index, (volatile organic acids, mg/l00g+％ pet. ether ext.) / ％(ash+pH) x 10, was found to be most accurate and easy to apply for the quality evaluation of aromatic tobaccos.

• Fisheries and Aquatic Sciences
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• v.4 no.4
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• pp.246-251
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• 2001

As a series of studies on improving quality of seasoned-dried Pacific saury, fatty acid compositions and taste compounds of the seasoned-dried saury treated with liquid smoke (T2 product) were examined during storage, comparing with control (C, seasoning only). In the both samples, the major fatty acids were 22:6n-3, 16:0, 22: In-11I, 20: In-11, 18: In-9, 14:0, 20:5 n-3 and 16:1n-7. The contents of saturated fatty acids in C and T2 increased with increasing storage period, while those of polyunsaturated fatty acids decreased. After drying, the contents of 7 non-volatile organic acids contents detected in this study decreased, and the others of non-volatile organic acids, except for malic and citric acids, in both C and T2 decreased with storage period. The contents of nucleotides and their related compounds in both C and T2 decreased with increasing storage period. The content of total free amino acids in raw sample was 556.96 mg/100g and increased up to 895.77 mg/l00 g and 958.40 mg/100g in C and T2, respectively, after drying, and total contents of free amino acids in both C and T2 somewhat decreased after 60 days of storage.

• Korean Journal of Food Science and Technology
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• v.26 no.6
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• pp.665-669
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• 1994

A rapid gas chromatographic (GC) profiling method was applied to dairy products (milk and cheeses) for the simultaneous analysis of volatile and nonvolatile organic acids. Cheese samples were first made into aqueous samples by dissolving in water. The aqueous samples were then extracted with organic solvents after the acidification and NaCI saturation. The organic layers (diethyl ether : hexane= 1 : 1) were extracted with $NaHCO_3$ saturated solution with subsequent solid-phase extraction of the aqueous phases using Chromosorb P column/diethyl ether followed by triethylamine treatment. The resulting triethylammonium salts of acids were directly converted into volatile tert.-butyldimethylsilyl derivatives, which were analyzed by dual-capillary column GC, and GC-mass spectrometry. From milk and four cheese samples studied, 31 organic acids including 21 fatty acids and other hydroxy and dioic acids were tentatively identified. The amounts of the fatty acids were different among the kinds of cheese and thus the simplified retention index (RI) spectra of organic acids were useful for the visual pattern recognition of each sample, when the Direct Comparision method between cheese and a blind sample were attempted, it was quickly recognized to be a gouda cheese with the 999 ppt match quality value.

• Culinary science and hospitality research
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• v.8 no.3
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• pp.279-294
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• 2002

The anchovy, Engraulis japonica, were prepared with two different salt concentration of 20%, 10% which was added 2, 5, 5 and 10 % of grind garlic(LSA 1, 2, 3, 4) and garlic juice(LSB 1, 2, 3, 4), respectively. The experimental samples were taken at 30, 60, 90 and 110 days fermentation, which were analyzed VBN(volatile basic nitrogen), amino acids, nucleotides and their related compounds and amino acids. VBN increased rapidly until 110 days fermentation, its contents in samples containing of 10% salt(CB) were increased about 2.4 times as compared with those of 30 days fermentation. And then its contents of 110 days fermented samples increased at average 2.3 times more than 30 days fermented samples containing grind garlic of 2, 5, 8% and garlic juice of 2%. Nucleotide and their related compounds were detected AMP, UMP, IMP, inosine and hypoxanthine. Hypoxanthine was dominants in all samples and increased steadily during fermentation of anchovy. The contents of composition amino acids decreased gradually during it's fermentation, but those content decreased 33% in CO group, 42% in the CB group and 38%(average) in the other garlic added low salt groups.

• Journal of the East Asian Society of Dietary Life
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• v.6 no.3
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• pp.355-363
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• 1996

Physicochemical properties of marketing and intensive persimmon vinegar were investigated, the results are as following; Total acidity in D, H, S, J, sweet persimmon(SP) and persimmon vinegar were 4.20, 3.03, 2.58, 3.30, 5.92 and 5.81%, respectively, and the value of intensive persimmon(IP) vinegars wre higher than that of others. SP sample was lower than any other vinegar as compared to L value in colors, no sample was lower than H and S vinegar inturbidity and browning. Brix of IP samples were lower than that of other vinegars, there was a little fructose in the all samples. Among the organic acids, galacturonic acid content except acetic acid was the highest, and ascorbic and malic acid were detected a little, Calium content was the highest of minerals in persimmon vinegars, phosphorus was detected a little. Alcohols of 5~6 types were analyzed in each samples, free amino acids of 17~24 dypes were analyzed, D and IP vinegars have more acohols and amino acids, and their contents were higher than the others. Volatile components of 6~9 types were analyzed in each samples, these have more ethanols except acetic acids than other volatile components, and the contents of IP samples were higher than that of marketing persimmon vinegars.

• Asian-Australasian Journal of Animal Sciences
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• v.2 no.3
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• pp.322-324
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• 1989

• Applied Biological Chemistry
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• v.41 no.1
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• pp.84-88
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• 1998

Composition of volatile flavor components of chestnut flower sand honey were investigated by GC and GC-MS. A total of 64 components including 14 aromatic compounds, 13 hydrocarbons, 7 fatty acids, 4 terpenes, 12 oxygenated hydrocarbons, and 7 misellaneous compounds and a total 41 components including 7 aromatic compounds, 16 hydrocarbons, 12 fatty acids, 1 terpene, 2 oxygenated hydrocarbons, and 3 misellaneous compounds were identified from total volatile concentrates of chestnut flower and honey respectively. The main components of flower volatile were 2-phenyl ethyl alcohol, 1-phenyl ethyl alcohol and benzyl alcohol which comprise 49.02% of this volatiles The main components of flower volatile were 2-phenyl ethyl alcohol, 1-phenyl ethyl alcohol and benzyl alcohol which comprise 49.02% of this volatiles. Aromatic compounds such as 2-phenyl ethyl alcohol, benzyl alcohol, 1-phenyl ethyl alcohol, 1-(2-aminophenyl) ethanone act as major contributor to the characteristic honey-like flavor of chestnut honey.