• Journal of the East Asian Society of Dietary Life
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• v.19 no.6
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• pp.981-986
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• 2009

The quality characteristics and antioxidative activity of garlic pickles prepared with persimmon vinegar with or without Maesil (Japanese apricot) juice were investigated. Heat treated garlic cloves ($110^{\circ}C$, 5 min and then rapidly cooling) were salted with NaCl and $CaCl_2$, and then soaked in pickling solution, and stored at $20^{\circ}C$. The pH of the garlic pickles initially ranged from 2.36~3.24, after which the pH slightly increased to 3.22~4.13 during storage, while the acidity was decreased to 1~1.97. Throughout the entire storage periods, the acidity of the garlic pickle containing persimmon vinegar and Maesil was the highest (1.97%). The hardness of the control sample (non heated garlic) decreased during storage, whereas the hardness of all the heat treated groups did not change after 21 days of storage. Moreover, the chewiness of the persimmon vinegar+Maesil group was the highest among the groups. The Hunter color L value of garlic pickles decreased during storage, while the b value (yellowness) increased for all groups except the two persimmon groups. The $IC_{50}$ of the DPPH radical scavanging activity of garlic pickles at 5 day of storage was 85.98~97.81 mg/mL. However, the antioxidative activity of garlic pickles gradually increased with longer storage times. The persimmon vinegar+Maesil group showed the highest antioxidative activity. Results from the sensory evaluation showed that scores of flavor, taste and over-all preference were higher for the persimmon vinegar+Maesil group than the other groups (p<0.05).

• Journal of the Korean Society of Food Culture
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• v.10 no.3
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• pp.133-137
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• 1995

The objectives of this study were to determine the chemical composition of persimmon pickles and microorganisms associated with the manufacture of persimmon pickles. Moisture content was 80.04% and sugar content was 13.72%, but crude ash content was 4.26% which meant some of sodium chloride in soaking solution were permeated into fresh persimmon. Soluble tannin and total vitamin C contents were decreased from 635.45 mg% and 34.53 mg% to 81.04 mg% and 23.76 mg%, respectively. Free sugars contained in persimmon pickles were glucose, fructose and sucrose, 17 kinds of free amino acids were detected including glutamic acid (24.97 mg%), aspartic acid (24.02 mg%) and leucine (22.33 mg%). Microorganisms asociated with the manufacture of persimmon pickles were identified as Bacillus subtilis, B. cereus, B. pumilus, B. thuringiensis, Candida glabrata, C. guilliermondi and Hansenula cnomala, especially C. glabrata was the strain which caused the swelling of vacuum packages of persimmon pickles in retail stores.

• Korean Journal of Food Science and Technology
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• v.27 no.5
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• pp.697-702
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• 1995

Changes of physicochemical properties during the preparation of persimmon pickles and its optimal preparing conditions including salt concentration, soaking temperature, soaking time, amount of fermented soy paste, and ripeness of fresh pesimmon were investigated. The salinity and pH of soaking solution were rapidly dropped during 40 days of soaking, while their changes were negligible after 40 days of soaking. When the fermented soy paste was added to the soaking solution with $10{\sim}40%$ the pH dropped more slowly. Salt content in persimmon pickles was gradually increased during soaking and soluble tannin content was rapidly decreased during the first 10 days of soaking. L value of persimmon pickles was gradually decreased, but a/b value was slightly increased. The hardness of persimmon pickles was slightly increased up to the 20th day of soaking and then decreased. Most acceptable persimmon pickles were prepared when the less ripened fresh persimmons were soaked in 10% salt solution at $15^{\circ}C$ for 40 days, and the suitable amount of soy paste added to the soaking solution for preparing persimmon pickles was 20%.

• Applied Biological Chemistry
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• v.47 no.1
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• pp.55-60
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• 2004

Changes of cell wall components and softening enzyme during the preparation of persimmon pickles with soy sauce and soy paste were investigated. The contents of alcohol insoluble substance and cell wall extracted from persimmon pickles in soy sauce and soy paste were gradually decreased to the 20th day of storage and then decreased rapidly, but the contents of water soluble material extracted from persimmon pickles in soy sauce and soy paste was increased during the storage time $(0{\sim}50\;days)$. The contents of lignin, pectin and acid-soluble hemicellulose of persimmon pickles in soy sauce and soy paste were decreased during the storage, but contents of alkali-soluble hemicellulose was increased. The contents of cellulose almost did not change during storage of pickles. The hardness of persimmon pickles in soy sauce and soy paste was gradually increased up to the 30th day of storage and then decreased. The activities of polygalacturonase and pectinesterase as softening enzyme in persimmon pickles with soy sauce and soy paste increased during storage. And ${\beta}-galactosidase$ activity was slightly increased to the 30th day of storage and after increased rapidly.

• Applied Biological Chemistry
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• v.46 no.4
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• pp.317-322
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• 2003

Changes of physicochemical properties during the preparation of persimmon pickles were investigated. The salinity in persimmon pickles increased during storage time $(0{\sim}50\;days)$ with soy sauce and soy paste. When the fermented soy sauce and soy paste was added to the soaking solution with $80{\sim}100%$, the salinity increased more rapidly. The hardness of persimmon pickles with soy sauce and soy paste was slightly increased up to the 20 or 30th day of storage and then decreased. L value of persimmon pickles was gradually decreased, but a and b value were slightly increased. The concentration of soluble tannin in persimmon pickles was slightly decreased down to the 20th day of storage and then decreased rapidly. The activities of polygalacturonase and pectinesterase as softening enzyme in persimmon pickles with soy sauce and soy paste increased during storage time $(0{\sim}50\;days)$ and enzyme activity was inhibited by high concentration of soaking solution.

• Korean Journal of Food Science and Technology
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• v.38 no.3
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• pp.392-399
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• 2006

In order to develop a new persimmon pickle with a low salt concentration, changes in physicochemical characteristics during soaking of persimmon pickles treated with different organic acids and sugars were investigated at $15^{\circ}C$ for 70 days. The pH of persimmon pickles decreased from pH 6.64 at initial stage to pH 3.99 (control group), pH 2.76-3.33 (citric acid treatment, CT), and pH 3.08-3.34 (acetic acid treatment, AT) after 70-days of soaking. Titratable acidity of AT was higher (0.86-1.18%) than that of CT (0.61-0.78%). After 70-days of soaking, salinity of persimmon pickles treated with stevia leaf powder, sodium saccharin, sucrose, and isomalto-oligosaccharide were 4.94-4.96, 4.00-5.15, 2.99-3.31, and 3.03-3.30%, respectively, and 1.54-3.70% lower than that of the control group (6.69%). The hardness of persimmon pickles in all cases was increased up to 20-40-days of soaking and then decreased. L (lightness), a (redness), and b (yellowness) value of persimmon pickles treated with citric acid were higher than those of AT and the control group. Sensory evaluation of persimmon pickles after 70-days of soaking revealed that CT had the highest scores for color, texture, and overall acceptability. These results indicate that the salt concentration of persimmon pickles could be lowered by the addition of citric acid and various sugars during soaking.

• Journal of Food Hygiene and Safety
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• v.21 no.2
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• pp.92-99
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• 2006

For standardization of quality and reduction of salt concentration of pickles manufactured in Folk Villages of Sunchang Region, the physicochemical characteristics of 90 pickles of 10 items were compared. Persimmon, garlic, cucumber, radish, Codonopsis lanceolata L., and Japanese apricot pickles were mixed with kochujang, perilla leaf pickle was mixed with soybean paste, cucumber pickle in wine cake was mixed with wine cake, and red pepper was mixed with soybean paste or soy sauce. Moisture contents, pH, and titratable acidities of pickles were various depend upon characteristics of materials. Sugar contents of pickles test,34 were ranged from $22.10{\pm}3.04$ (red pepper pickled with soy sauce) to $55.53{\pm}7.67\;^oBrix$ (garlic pickle), and sugar contents of pickles mixed with kochujang were higher than those of soybean paste or soy sauce. Salt concentration of pickles were ranged from $3.56{\pm}1.11$ (Japanese apricot) to $9.15{\pm}6.35%$ (red pepper pickled with soy sauce), and salt concentration of pickle mixed with soy sauce was the highest among the pickles tested. Total aerobic counts of pickles tested were similarly ranged from $5.62{\pm}0.10$ (red pepper pickled with soy sauce) to $6.83{\pm}0.55$ log CFU/g (perilla leaf pickled with soybean paste). These results indicate salt concentration and quality of pickles manufactured in Folk Villages of Sunchang region must be lowered and standardized, respectively.

• Journal of Practical Agriculture & Fisheries Research
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• v.18 no.1
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• pp.79-91
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• 2016

Quality factors which characterize 11 kinds of farm-manufactured apple Jangachi and commercial Jangachi, have been studied in order to provide a guideline to improve the quality and marketing strategy of farm-manufactured pickled apples. Moisture content ranged from 74% to 84% and 81% to 91% in Doenjang Jangachi and vinegar Jangachi, respectively; 38% to 64% in Kochujang Jangachi; 57% to 64% in radish Kochujang Jangachi. Moisture content was 89% in Doenjang Jangachi. Even though moisture content of apple Kochujang Jangachi indicated 48% which is lower than that of radish Jangachi, it was higher than that of a persimmon pickled in Kochujang (38%) and that of Japanese apricot Jangachi (49%). pH and titratable acidity, two indicators used to determine the appropriate ripening period of Jangachi, were pH 3.4~5.6, 0.03~0.14%, respectively. The pH ranged from 5.2 to 5.6 in radish Jangachi; 3.4 to 4.1 in Cucumber Jangachi. pH of persimmon Jangachi, Japanese apricot Jangachi and apple Jangachi showed 4.1, 3.5 and 4.1, respectively. Compared with the pH of traditional Jangachi (3.03~5.36), pH of all of the above Jangachi fall into an appropriate range. The brix of apple Jangachi (30%) was 12% to 18% higher than that of Kochujang radish Jangachi, but it was relatively lower than that of persimmon Jangachi (39%) and that of Japanese apricot Jangachi (49%). Salinity of Jangachi varied depending on which marinating material was used. Salinity in the descending order according to each marinating material demonstrated Kanjang (6% to 13%), Doenjang (7%), Kochujang (3% to 4%). Salinity of apple Jangachi was 3.28% which was relatively lower than that of commercial Jangachi which used either Kanjang or Doenjang as its marinating material. Chromaticity test shows that the brightness value of apple Jangachi (54.70) was similar to that of cucumber Jangachi (50.86, 56.02); the redness value and yellowness of apple Jangachi (16.21 and 26.78) were higher than the redness value (7.27 to 11.23) and the yellowness value (10.62 to 14.69) of radish Kochujang Jangachi. Sensory Characteristics value of apple Jangachi, along with radish and cucumber Jangachi in its color, odor and taste (7.00, 7.50, 7.00, respectively) placed high on the list implying higher preference. However, overall preference value of apple Jangachi was 6.83 which was lower than that of Japanese apricot Jangachi or that of radish Jangachi. The result can be explained by the tendency of people preferring crispy Jangachi and points out that the texture of apple Jangachi needs to be improved to gain popularity. Furthermore, for increased sales of apple Jangachi as a niche product, more rigorous market testing is required.