• Food Science and Preservation
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• v.5 no.3
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• pp.211-216
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• 1998

This study was carried out to how the effects of storage temperature of garlic bulbs, pH and temperature of garlic puree on its color change. Color change was severely appeared in puree made of garlics stored at pH 4.0, 2$^{\circ}C$ and pH 4.0, 25$^{\circ}C$. The color of garlic puree was changed from green to blue during storage. The yellowing occured by the oxidation at high temperature of puree. Garlic puree absorbed the wavelengths of 486nm. 580nm, and 656nm. The precursors of pigments produced by enzymatic reaction were seemed to be the reasons of color change because there was no my change of color in puree when the enzymes including alliinase were inactivated. However, the color changes of puree at low storage temperature should be studied further in the future.

• Korean Journal of Food Science and Technology
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• v.22 no.1
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• pp.50-55
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• 1990

Differences in the major components between non-greening and greening garlic bulbs were compared, and the several factors to be affected on the greening were investigated to study on the greening phenomenon occured in garlic puree made from stored garlic bulbs. From the several chemical analyses it was found that the contents of total nitrogen and lipid were lower in the greening than in the non-greening bulb but the contents of pyruvic and succinic acid were not. The content ratio of glutamic acid to total amino acid and the composition ratios of linoleic and linolenic acid were high in the greening bulb in comparsion with the non-greening. The protein pattern of the greening bulb by SDS-PAGE was significantly differed from that of the non-greening, especially in molecular weight ranges of 45.0-66.2 Kd. From the studies on the effects of pH, temperature and duration on the development of green color in the garlic powder solution, the optimum pH for the greening was 5.5 and maximum degree of the greening in the pH adjusted solution was shown after 30 min at $50^{\circ}C$.

• Korean journal of food and cookery science
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• v.12 no.3
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• pp.361-366
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• 1996

Acceptable fish noodles of better nutritional and sensory values than conventional noodle made only wheat flour were prepared by mixing wheat flour and ground tile fish (Branchioste gus japonicus). In oder to mask a distinctive fish odor, various herbs and spices, such as ginger (Zingiber officinale), curry (Chalcas koenigii), nutmeg (Myristica Pagrans), garlic (Ailium sativum), black pepper (Piper nigrum), lemon (Cirtus limon) or sodachi (Citrus sudachi) were added to the basic tile fish noodle. Also, for the purpose of enhancing eating qual ify and nutritional value of basic noodle were combined some agricultural or fishery products of Cheju island, citrus fruits; danyooja (Citrus danyooga), hagul (C. natfudaidai), medical plants; angelica utilis (Angelica keiskei), ginseng (Panax ginseng), cactus (Opuntia dillenii), vegetable; carrot (Daucus carota), dropwort (Oenanthe jnvanica), seaweeds; fusiforme (Hizkia fusiforme), gulfweed (Sargaceae hlvelium). The optimal mixing ratio for preparing the basic tile fish noodle amounted to ground tile fish 135 g: tile fish stock 139 $m\ell$: wheat flour 450 g: salts 10 g. The mixture of curry powder (2.5 g) and nutmeg powder (2.5 g) was proved to be the most effective combinations for masking unfavorable fish odor. The optimal amounts of materials to be added to the prepared basic noodle were 25 g citrus zest and 80m1 citrus juice for citrus fruits noodles, and ca. 140 g puree for noodles from medical plants, vegetables and seaweeds, respectively. The preference score obtained from consumer preference test, on a 9-point scales, were in oder of i) danyooja > carrot, angelica, ginseng > fusiforme, ii) hagul > dropwort, cactus > gulfweed. The shelf-life of tile fish noodle based on bacterial counting was estimated to be 7-days at 5$^{\circ}C$.

• Korean journal of food and cookery science
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• v.23 no.5
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• pp.685-695
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• 2007

The purpose of this study was to develop an excellent salad dressing using grape seed oil, which contains high levels of unsaturated fatty acids. First, a vinaigrette was made with grape seed oil and vinegar and divided into five portions. Then, five types of mirepoix au maigre ($M_1,M_2,M_3,M_4,M_5$) were made with apple, onion, carrot, garlic, tomato puree, and tomato ketchup by mixing in a main material vessel. The samples were then allowed to ripen for three days. The control group $M_1$ was named $GD_1$, and the experimental groups $M_2,\;M_3,\;M_4,\;and\;M_5$ were named $GD_2,\;GD_3,\;GD_4,\;and\;GD_5$. respectively. To measure receptiveness, a sensory test was conducted using a 7 point category scale. The test concentrated on flavor, taste, color, agreeability, aftertaste, and overall acceptability: the panel consisted of 15 subjects According to the results, $GD_4$ had the best flavor, color and agreeability. The samples with the most preferred taste and aftertaste were $GD_4\;and\;GD_5$. Between $GD_4\;and\;GD_5$, there were no noticeable differences in taste, aftertaste, or overall acceptability, but differences in color and agreeability did exist. Thus, $GD_4$ proved to be the most favorable product. To determine the best complementing vegetables for $GD_4$ yam($VE_1$), broccoli sprouts($VE_2$), mustard leaves($VE_3$), beet leaves($VE_4$), cucumber($VE_5$), and lettuce(VE6) were selected as samples, and a sensory test was conducted. Each vegetable has its own peculiarities. According to the results, $VE_2$ had the nicest vegetable fragrance recording the highest mean value. The vegetable with the most preferred taste, aftertaste, and agreeability were $VE_2\;and\;VE_6$. $VE_1\;and\;VE_6$ had the nicest color and contained the brightest color as well. The highest overall acceptability was awarded to $VE_2\;and\;VE_6$ and there was no remarkable difference between thorn at a level of 0.05. In conclusion, $VE_2\;and\;VE_6$ were the best complementing vegetables with grape seed oil dressing. However, to commercialize such a dressing, many follow-up studies must be conducted.