• Korean Journal of Food Science and Technology
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• v.17 no.5
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• pp.361-370
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• 1985

The effect of major ingradients (Water, Soybean oil, Na-caseinate, Soybean protein isolate, Corn starch. Lactic acid and disodium phosphate) on the textural properties of imitation cheese were studied by response surface methodology and evaluated by contour diagram. The hardness of imitation cheese was directly influenced by the contents of water, oil and Na-caseinate and also affected by the interactions between water and oil and corn starch and lactic acid/phosphate. The adhesiveness was strongly affected by the interactions between caseinate and lactic acid/phosphate, SPI and corn starch and corn starch and lactic acid/phosphate. The springiness was directly influenced by the contents of oil, caseinate and lactic acid/phosphate, and also affected by the interactions between SPI and lactic acid/phosphate and corn starch and lactic acid/phosphate. The melting property was strongly influenced by the contents and interactions of lactic acid/phosphate.

• Journal of the Korean Society of Food Science and Nutrition
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• v.19 no.6
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• pp.571-576
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• 1990

This study has been concerned with the possibility of delactosed nonfat dry milk(DENFDM, lactose 4.25％) formation into conventional imitation processed cheese(IPC). The effect of DENFDM was mainly a contribution to fracturability, elasticity and gumminess, while hardness and cohesiveness were decreased. Similarly calcium caseinate and sodium caseinate were contributing to cohesiveness, hardness, elasticity and gumminess. Delactosed NFDM has a potential beneficial effect as a partial replacement of caseinate in the formation of the imitation processed cheese to characteristics close to commercial processed cheese.

• Korean Journal of Food Science and Technology
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• v.18 no.1
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• pp.11-15
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• 1986

The imitation processed cheese (IPC), formulated with delactosed non fat dry milk (DENFDM) only, showed the smallest melting area. Calcium caseinate sample showed the largest spread. Satistically protein source as a major ingredient for the IPC yielded significantly different melting areas. In a similar fashion, initial melting temperature was markedly and significantly influenced by protein source. In effect of addition of DENFDM on microstructure of IPC analog revealed that as the fraction of DENFDM was decreased, the network was much more uniform and the fat globules were also better dispersed compared to DENFDM cheese analog. Therefore the results of this study help predict that melting and microstructural characteristics are largely but not solely dependent on the protein source. The DENFDM has a potential beneficial effect as a partial replacement of caseinate in the formation of IPC to characteristic close to processed cheese.

• Journal of Dairy Science and Biotechnology
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• v.26 no.2
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• pp.39-43
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• 2008

EMC have a similar enzymatic reaction to cheese, but the EMC produce the stronger flavors than cheese by much more enzymatic reaction. It is important to find appropriate enzyme in order to develop these kind of superior EMC. Calf PGE is more suitable than that of kid and lamb to develop the mild cheese flavors. Especially, it was known that animal esterase and peptidase were more benefit than microbial enzyme for Cheddar cheese flavors. On the Cheddar and Swiss cheese, EMC flavors were much more 3 times than the cheese flavors. In the ratio of each component, butyric acid, myristic acid, palmitic acid and oleic acid were high in free fatty acid, and glutamic acid, valine, leucine and lysine were high in free amino acid of the Cheddar EMC.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.6
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• pp.1068-1076
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• 1997

This study was carried out to elucidate the utility of fusant for shortening the ripening time of imitation processed cheese. L. bulgaricus exhibited the highest protease and lactase activity and L. helveticus revealed the highest lipase activity. Fusant was shown to be high in the activity of protease and lactase. The total volatile free fatty acid produced by the cheese treated with L. helveticus was markedly increased after four ripening days and was gently increased after nine ripening days. However, L. bulgaricus significantly increased the total volatile free fatty acid between four and nine ripening days. In the case of fusant, the amount of total volatile free fatty acid was observed to increase at a constant rate relative to the ripening time. In free fatty acid production at different ripening times, L. bulfaricus generated caproic acid and caprilic acid abundantly while it produced a poor quantity of capric acid, lauric acid, and myristic acid. In the cheese sample treated with L. helveticus, the amount of caproic acid and capylic acid was on increase as the ripening time increased. The amount of caproic acid and caprylic acid produced by fusant was less than that produced by the other two starters. In the panel sensory evaluation, the flavor intensity and preference increased as the ripening time increased. The cheese sample treated with fusant showed the highest flavor intensity at 7 days, whereas cheese treated with L. helveticus exhibited the highest flavor intensity at 15 or 30 days. The cheese treated with L. helveticus showed the highest preference at 7 days, but cheese treated with fusant exhibited the highest preference at 30 days.