• Korean Journal of Food Science and Technology
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• v.40 no.4
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• pp.479-484
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• 2008

There have been contradictory reports concerning the role of garlic on kimchi fermentation; therefore, in this study, the stimulatory effect of garlic on the fermentation of kimchi was reappraised. In this study, fermentation of kimchi prepared using spring Chinese cabbage was stimulated by the addition of garlic, but kimchi prepared using autumn Chinese cabbage was not. In addition, the results of this study revealed that the fermentation of kimchi prepared using spring Chinese cabbage was found to be stimulated by glucose, yeast extract, peptone, and secondary ingredients of kimchi, but the fermentation of kimchi prepared using autumn Chinese cabbage was not stimulated by these ingredients. Taken together, these results indicate that general nutrients in garlic stimulate the fermentation of kimchi by compensating for nutrients that are not found in spring Chinese cabbages. However, these findings do not indicate that certain specific substance(s) in garlic stimulate kimchi fermentation.

• Korean Journal of Food Science and Technology
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• v.31 no.2
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• pp.488-494
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• 1999

Changes of lactic acid bacteria and fermentation patterns were investigated during fermentation of Green Onion Kimchi and Chinese Cabbage Kimchi at 10 and $20^{\circ}C$. Fermentation of Green Onion Kimchi proceeded more slowly than Chinese Cabbage Kimchi in point of changes of pH, total acidity and total viable cell number. Maximum number of total viable cell, Leuconostoc, and Lactobacillus in Green Onion Kimchi were smaller than in Chinese Cabbage Kimchi. And these differences were larger in fermentation at $10^{\circ}C$. Total sugar content of Green Onion Kimchi was higher than Chinese Cabbage Kimchi not only at the beginning of fermentation but also at the end of fermentation. Therefore, the reason for the slow fermentation of Green Onion Kimchi was not low sugar content. Major lactic acid bacteria of properly fermented Green Onion Kimchi were identified as Lactobacillus plantarum and Leuconostoc mesenteroides which had been reported to be major lactic acid bacteria isolated from Chinese Cabbage Kimchi.

• Korean Journal of Microbiology
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• v.37 no.3
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• pp.234-238
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• 2001

For the comparison of fermentation pattern of leek kimci with chinese cabbage kimchi, the changes of total viable cell number, Leuconostoc sp. bacteria, Lactobacillus sp. bacteria, pH and total sugar content of twotypes kimchies were investigated during fermentation at $20^{\circ}C$ and $10^{\circ}C$. In chinese cabbage kimchi at $20^{\circ}C$ fermentaion, the numbers of total viable cell, Leuconostoc sp. bacteria and Lactobacillus sp. bacteria reachedthe maximum level on 2nd day and reduced slowly. But in leek kimchi, the maximum numbers of total via-ble cells, Leuconostoc sp. bacteria and Lactobacillus sp. bacteria were obtained after 3 days fermentation,and the cell number of Lactobacillus sp. maintained at the maximum level oyer 15 days. At $10^{\circ}C$ fer-mentation, in both kimchies, the viable cell number of lactic acid bacteria more slowly increased anddecreased than at $20^{\circ}C$. The pH of chinese cabbage kimchi was 4.2 on 3rd day (optimal ripening phase) andmere decreased to 3.5 after 5 days, but in leek kimci the pH 4.2 could be reached after 10 days at $20^{\circ}C$. At $10^{\circ}C$, the optimal ripening pH 4.2 of chinese cabbage kimchi was reached after 6 days, but in leek kimchieven though after 24 days, the pH was maintained oyer 4.3. The total sugar contents of chinese cabbage him-chi and leek kimci were decreased continuously during fermentation. From these results, we know that thefermentation of leek kimchi proceed more slowly than chinese cabbage kimchi by the retardation of lacticacid bacteria growing in leek kimchi.

• Journal of the Korean Society of Food Science and Nutrition
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• v.29 no.2
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• pp.218-223
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• 2000

The objective of this study was to investigate the effectiveness of preservatives for extending storage life and maintaining the quality of minimally processed Chinese cabbage. Cut Chinese cabbage was treated with either 1% CaCl2, 1% NaCl, 3% sucrose, 1% Ca-lactate, 1% vitamin C, 0.05% chitosan＋1% vitamin C, 0.1% Sporix＋1% vitamin C or hot water(6$0^{\circ}C$) and then packed with polyethylene film(60${\mu}{\textrm}{m}$) and stored at either 2$0^{\circ}C$ or 4$^{\circ}C$. To evaluate biochemical changes and quality of minimally processed Chinese cabbage, the samples were tested to determine the amount of vitamen C, titratable acidity, organic acid and fiber contents. Changes in color were also examined. The quality of kimchi prepared form minimally processed cabbage was affected by the treatments. REsults indicate that the minimally processed Chinese cabbage treated with either 1% CaCl2 at 2$0^{\circ}C$ and 4$^{\circ}C$ or 1% NaCl at 2$0^{\circ}C$ minimized biochemical changes in plant tissue and those treatments were most effective in maintaining product quality. The cabbage treated with 1% vitamin C or 1% NaCl at 4$^{\circ}C$ resulted in kimchi with improved color, texture, flavor and the best overall acceptability, as determined by a sensory test.

• Research in Plant Disease
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• v.29 no.1
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• pp.72-78
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• 2023

In September 2021, gray-to-brown discoloration and expanding water-soaked lesions were observed on the outer and inner layers and the core of kimchi cabbage (Brassica rapa subsp. pekinensis) in fields located in Samcheok, Gangwondo, Korea. A bacterial strain designated as KNUB-02-21 was isolated from infected cabbage samples. Phylogenetic analysis based on the sequences of the 16S rRNA region and the dnaX, leuS, and recA genes confirmed that the strain was affiliated with Pectobacterium versatile. Additionally, the biochemical and morphological profiles of the isolate were similar to those of P. versatile. Based on these results, the isolate was identified as a novel strain of P. versatile. Healthy kimchi cabbage slices developed soft rot upon inoculation with P. versatile KNUB-02-21 and exhibited symptoms similar to those observed in the diseased plants in fields. The re-isolated strains were similar to those of P. versatile. Prior to our study, P. versatile as the causative pathogen of kimchi cabbage soft rot had not been reported in Korea.

• The Korean Journal of Food And Nutrition
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• v.35 no.2
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• pp.127-136
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• 2022

Comparing the quality characteristics of kimchi were measured and anticancer effects using AGS human gastric cancer cells were observed. Five kinds of kimchi samples were made of Kanghwa Baek kimchi (KB), Kangwha Turnip kimchi (KT), Turnip: Chinese cabbage = 1:1 Baek kimchi (T1B1), Turnip:Chinese cabbage = 4:1 Baek kimchi (T4B1), Turnip mul kimchi (T). As a result T kimchi showed the best fermentation characteristics among the five samples. T kimchi had a lower percentage of the total number of aerobic bacteria, while the number of lactobacillus was higher than that of other samples. The mRNA and protein expression levels of apoptosis-related factors found that T kimchi significantly increases the mRNA expression levels of caspases-3 and caspases-9 in AGS human gastric cancer cells as compared to the other kimchi samples. It showed high anticancer effects in the order of T, T1B1, and KB kimchi. As the anticancer effect of Turnip mul kimchi made only of turnip was higher, the higher the turnip content, the higher the anticancer effect. These results show that there were changes in fermentation characteristics such as pH, acidity, number of lactic acid bacteria, and anticancer effects according to the ratio of turnip and cabbage.

• Microbiology and Biotechnology Letters
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• v.17 no.4
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• pp.403-406
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• 1989

To establish tile standard condition of uniformed Kimchi product, we introduced the concept of starter and studied the preparation of rapid-fermented Kimchi. Of the strains isolated from Kimchi, Kakdugi and infant's feces, M7 strain grew effectively on aseptic Chinese cabbage juice and on salted Chinese cabbage, the growth of M7 was decreased severely. Inoculated with M7 in salted Chinese cabbage, appropriate range of pH and lactic acid content were reached at 8-13 hrs and 12 hrs after addition of spices, respectively. The result of sensory evaluation was not significant at 5% level.

• Preventive Nutrition and Food Science
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• v.4 no.4
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• pp.255-259
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• 1999

The anticarcinogenic effects of the methanol extracts from leek (buchu in Korean) kimchi and Korean cabbage kimchi were evaluated using cytotoxicity and transformation tests in C3H/10T1/2 cells. Various fractions of the 6-day fermented leek kimchi at 15$^{\circ}C$, hexane, methanol soluble, dichloromethane, ethyl acetate, butanol and aqueous fraction, were also studied in the same system. The inhibitory effect of the leek kimchi(6-day fermented at 15$^{\circ}C$, pH 4.29) was higher than that of the Korean cabbage kimchi(4-day fermented at 15$^{\circ}C$, pH 4.21) on the cytotoxicity induced by 3-methylcholanthrane (MCA) in the C3H/10T1/2 cell system. While the MCA-treated culture(control) formed 21.0 foci of type II plus III in C3H/10T1/2 cells, 100$\mu\textrm{g}$/ml of the methanol extract of the leek kimchi and that of the 4-day fermented Korean cabbage kimchi treated cultures reduced the formation of type II plus III foci to 7.4 and 11.3, respectively. Among the fractions of the leek kimchi, the dichloromethane fraction showed the highest inhibitory effect on MCA-induced cytotoxicity in C3H/10T1/2 cells. Fifty $\mu\textrm{g}$/ml of dichloromethane fraction from the leek kimchi suppressed the MCA-induced cytotoxicity by 77%. On the transformation test using MCA, the dichloromethane fraction considerably reduced the formation of type II plus III foci, especially thpe III foci. When 50$\mu\textrm{g}$/ml of dichloromethane fraction from the leek kimchi was treated, the numbers of type III foci mediated by MCA were decreased to 1.7 compared to 10 for the control. These results indicate that leek kimchi has stronger anticarcinogenic effects than Korean cabbage kimchi and that the dichloromethane fraction of the leek kimchi may contain the major compound(s) that suppress the carcinogenesis in the eukaryotic cells.

• Food Science and Preservation
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• v.6 no.2
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• pp.179-183
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• 1999

This study were comparison the quality characteristics of winter Chinese cabbage and investigation the physicochemical properties during Kimchi fermentation. External characteristics of three cultivars winter Chinese cabbage were compared, total weight of "Manpung" cultivar showed the heaviest in Chinese cabbages, but edible portion weight of "Seolwang" cultivar showed the heaviest in Chinese cabbages. Kimchi made of winter Chinese cabbage were fermented at 5$^{\circ}C$ for 40 days, of which pH, acidity, free sugar and organic acid were measured. The hardness of "Manpung" cultivar continued highly during the Kimchi fermentation at 5$^{\circ}C$. The pH and total acid in Kimchi fermentation, of the "Manpung" cultivar changed more than those of others. At the initial stage of Kimchi fermentation the major organic acid was citric acid, but lactic acid and acetic acid were increased rapidly during fermentation of Kimchi. The major organic acid of Kimchi fermented for 30 days was lactic acid, and the lactic acid contents of Kimchi prepared with "Manpung" cultivar was 6,796.6$\mu\textrm{g}$/g account for 69.6% of total organic acid.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.3
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• pp.404-410
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• 1997

Amylase, protease, polygalacturonase and $\beta$-galactosidase activities were monitored during salting of Chinese cabbage and kimchi fermentation at 1$0^{\circ}C$. A part of enzymes in the tissue of Chinese cabbage were eluted during salting, and other remained enzymes activities were decreased in proportion to the amount of elution. But total enzyme activities were increased during salting. Amylase, protease and polygalacturonase activities decreased at the early fermentation stage but increased at the late fermentation stage. $\beta$-Galactosidase activity was continuously increased during all periods of fermentation. Enzymic actions at the early fermentation stage come from Chinese cabbge and at the late fermentation stage come from major microorganisms in kimchi fermentation. Kimchi fermentation involves the activation of the enzymes by salting; hydrolysis of micromoleculars such as polysaccarides cell wall composed polysaccarides and proteins of cell wall during early fermentation of kimchi; overripening of the kimchi caused by propagation of homofermentative lactic acid bacteria which demand autotroph.