• Food Science of Animal Resources
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• v.21 no.3
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• pp.256-264
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• 2001

Pyrolysis/GC-mass spectrometry(Hewlet-Packard 5890GC/mass selective detector, 5971 BMSD), interfaced to a CDS Pyroprobe 1500 was optimized for rapid analysis of flavour compounds in Cheddar cheese. Twenty flavour compounds, including aldehydes(4), ketones(4), fatty acids(10), alcohol(1), and hydrocarbon(1), were identified from Cheddar cheeses. In total, Twenty-three flavour compounds aldehydes(2), ketones(8), alcohols(3), fatty acids(7), lactone(1), benzene derivative(1) and amide(1) were identified from two samples of accelerated-ripened Cheddar cheese treated with the proteolytic enzymes of Lactobacillus casei LGY. In total, Twenty-one flavour compounds; aldehydes(2), ketones(5), alcohols(2), fatty acids(11), and lactone(1) were identified from enzyme-modified cheese(EMC) treated with the combination of the proteolytic enzymes of Lactobacillus casei LGY and commercial endopeptidase or lipase. However, All the flavour compounds identified by pyrolysis/GC/MS in samples of ARC and EMC were not determined whether they are recognized as typical Cheddar flavour or not. More studies were requested on the development of methods for a rapid and convienent analysis of dairy fermented products using pyrolysis/GC-mass spectrometry.

• Journal of the Korean Society of Food Science and Nutrition
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• v.24 no.6
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• pp.925-931
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• 1995

Volatile compounds in Cheddar, Emmentaler, Parmesan and Roquefort cheese and cheese aroma were concentrated using a microsteam distillation-extraction apparatus and those compounds were analyzed with GC. The lipase-treated cheese aroma concentrates showed significantly higher level of short-chain free fatty acids than natural ripened cheese. The sensory properties of rancidity was high in Emmemtaler and Parmesan. Acidity and fruitness were shown high score in Roquefort. Correlation of free fatty acids and cheese flavor 'sharpness, rancidity and soapy' appear to be related(r=0.8239, 0.8918 and 0.7503), respectively. Methyl ketones, the most striking flavor components of Roquefort cheese showed high amounts in the series 2-heptanone > 2-nonanone > 2-pentanone > 2-undecanone. And the intensity of the Roquefort taste sensation 'acidity and fruitness' is linearly correlated with the methyl ketone concentrations(r=0.9284, r=0.9659).

• Food Science of Animal Resources
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• v.44 no.6
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• pp.1373-1388
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• 2024

During cheese ripening, the proteins in the cheese are broken down, and various functional peptides are produced. This research aimed to investigate the changes in peptides and their physiological activities during the long-term maturation of Cheddar cheese. Young (YC), medium (MC), and 3-year-aged extra-sharp (EC) Cheddar cheeses were extracted with water, and bioactive peptides were identified using ultra performance liquid chromatography-high resolution mass spectrometer. Peptides reported to have antioxidant, angiotensin-converting enzyme (ACE)-inhibitory, and anti-inflammatory effects were identified and evaluated in the extracts. MC and EC showed stronger antioxidant activity than YC. The 2,2'-azino-bis-(3-ethylbenzothiazoline-6-sulfonic) acid inhibition rates of MC and EC were similar, but EC exhibited a higher 2,2-diphenyl-1-picrylhydrazyl inhibition rate. The antihypertensive effect was found to increase owing to the appearance of peptides with ACE-inhibitory activity in MC and EC. Quantitative real time polymerase chain reaction and immunoblot were run to evaluate the anti-inflammatory effects. YC did not show anti-inflammatory activity, but MC and EC were shown to effectively inhibit inflammatory mRNA expression. The immunoblot results showed that EC did not inhibit IκBα phosphorylation, but had an inhibitory effect at the mRNA expression level. Overall, the peptides contained in aged Cheddar cheese were shown to have excellent antioxidant, anti-inflammatory, and antihypertensive activities, and long-term ripening appeared to have a positive effect on these activities. This is presumed to have affected not only the already identified peptides but also unknown peptides; therefore, it is expected that the discovery of bioactive peptides will be possible through additional research.

• Korean Journal of Food Science and Technology
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• v.22 no.3
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• pp.248-254
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• 1990

Commercial food grade porcine-pancreatic lipase was incorporated into cheese at two different levels of concentration and ripened at $7^{\circ},\;13^{\circ}\;and\;21^{\circ}C$ Gas chromatographic analysis showed that the pancreatic lipase-treated cheese produced significantly higher levels of short-chain free fatty acids than controls. At $21^{\circ}C$ the high level of pancreatic lipase-treated cheese produced medium flavor cheese at 1 wk and close to sharp flavor cheese at 3 wk without causing distinctive defects. The low level of pancreatic lipase-treated cheese developed a number of good quality cheese. They were roughly equivalent to medium and sharp cheeses when ripened at $7^{\circ},\;13^{\circ}\;and\;21^{\circ}C$ for 3 to 15wk. Statistical analyses indicated that there were significant correlations between aged Cheddar flavor and the concentration of c6 as individual short chain free fatty acids (FFA) or C4 and C6 FFA combinations. Pancreatic lipase may be applicable for the accelerated ripening of Cheddar cheese if appropriate conditions are used.

• Korean Journal of Food Science and Technology
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• v.25 no.5
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• pp.510-516
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• 1993

This study was conducted to investigate biochemical characteristics of enzyme-added cheese base slurries during accelerated ripening. Trichloroacetic acid (TCA) soluble nitrogen of cheese base slurries increased rapidly during the first day of ripening and the rate of increase slowed down thereafter. Cheese base slurries showed lower level in the production of the nitrogen than Cheddar cheese slurries. Producctions of phosphotungstic (PTA) soluble amino nitrogen also showed similar trends as TCA soluble nitrogen. Electrophoresis revealed that all caseins in both cheese base slurries and Cheddar cheese slurries were hydrolyzed, but whey proteins in cheese base slurries were little hydrolyzed. Cheese base slurries produced free amino acids little more than half of Cheddar cheese slurries. Both slurries showed similar increasing trend in production of short-chain free fatty acids. The specificity of the fatty acids in the slurries was similar to that of natural ripened cheese. The results of this study showed that addition of enzyme was effective to accelerate cheese base ripening.

• Korean Journal of Food Science and Technology
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• v.22 no.2
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• pp.206-214
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• 1990

Effects of commercial food grade porcine pancreatic lipase on the neutral volatile compounds in Cheddar cheese were studied The enzyme was incorporated into the cheese at two different levels of concentration and ripened at various temperatures. The production of 2-butanone increased at higher amount of lipase and higher temperature, but the production of 2-pentanone was inconsistent trends during ripening periods. The concentration of acetaldehyde was the highest among aldehydes and was increased consistently during ripening Periods. In alcohol production ethanol was the most abundant but no further consistent trend was observed after 6 wk. The production of ethyl butyrate was the most abundant ester and related io lipase activities as well as ripening temperatures. Dimethyl sulfide was the only sulfur compound and appeared not to be related to the addition of lipase or ripening temperatures . Statistical analysis suggested that ethyl butyrate was most correlated to aged Cheddar flavor during cheese ripening.

• Journal of Dairy Science and Biotechnology
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• v.29 no.1
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• pp.65-73
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• 2011

Cheese is a nutritious food with various balanced nutrients, such as proteins, peptides, amino acids, fats, fatty acids, vitamins and minerals. Domestic cheese varieties and quality need to be improved to prevent imported cheese. To develop those cheeses, search for previous works and research for new products are needed. In cheese ripening of hard cheese, such as Cheddar or Parmesan cheese, is ripened for 2 to 24 months at 2 to 16$^{\circ}C$ to develop desired cheese flavor and body characteristics. Long time with low temperature to ripen the cheese requires high expenses. So accelerated cheese ripening is a good potential for saving in industry. Methods for acceleration of cheese ripening are temperature control, addition of bacteria or enzymes. To develop the functionality of cheese, addition of microencapsulated various probiotics and nutrients, such as iron, removal of cholesterol by crosslinked ${\beta}$-cyclodextrin, lowering blood cholesterol and serum glucose by nanopowdered functional materials et al. are necessary. Therefore, this review focused on the functionality of cheese, such as the acceleration of cheese ripening, microencapsulated probiotics and iron, and cholesterol removal.

• Microbiology and Biotechnology Letters
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• v.21 no.4
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• pp.310-315
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• 1993

An interspecific fusant was made from the protoplasts of two strains of Lactobacillus genus (L. bulgaricus and L.helveticus). And in order to test the applicability of the fusant in manufacturing the cheddar cheese, functional properties of the strain was examined by determining acid-producing activity, three important enzyme activities and volatile free fatty acid-producing activity. The recombinant strain did not exhibit greatly increased acid-porducing activity. Lipase and volatile free fatty acid-porducing abilities of the fusant, however, were remarkably higher than those of the two parental strains. The fusant actually porduced the cheese porduct of the highest ammount of total volatile free fatty acid after 7 days ripening at 10$^{\circ}C$. Finally, the cheddar cheese ripened with this strain was also evaluated to be high preference and flavor intensity by organoleptic panel tests.

• Food Science of Animal Resources
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• v.28 no.4
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• pp.463-469
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• 2008

The objective of the present study was to compare the chemical, rheological and sensory properties of regular process cheese (control) and cholesterol-reduced block-type process cheese. The cholesterol-reduced process cheese was made by accelerated ripened cholesterol-reduced Cheddar cheese and cholesterol-reduced butter treated by crosslinked $\beta$-cyclodextrin ($\beta$-CD). The composition of the block-type process cheese was similar to the control cheese. Approximately 91.0% of cholesterol removal was observed when treated by crosslinked $\beta$-CD. The production of total free amino acids was significantly higher in cholesterol-reduced process cheese in all storage periods compared with those in the control. In sensory analysis, a significantly higher score of acidic, salty and bitterness. and lower score of elasticity were found. However, no difference was found in free fatty acids, rheological properties, and TBA test between the control and cholesterol-reduced process cheese. Therefore, the present study indicated that even though some of the significant difference was observed in sensory properties in the cholesterol-reduced block-type process cheese, most of chemical and rheological properties were comparable to the control process cheese.

• Food Science of Animal Resources
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• v.32 no.5
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• pp.669-677
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• 2012

The objective of this study was to analyze the flavor pattern of different varieties of cheeses. Four of the each following cheese varieties such as shred type pizza cheese, Cheddar cheese, Mozzarella block cheese, and white mold-ripened cheeses, stored at $4^{\circ}C$ during 2 wks were examined before and after cooking at $70^{\circ}C$ and $160^{\circ}C$. Flavor patterns of these cheeses were analyzed using an electronic nose system based on mass spectrometer. All data were treated by multivariate data processing based on discriminant function analysis (DFA). The results showed the discriminant model by DFA method. Data revealed that flavor patterns of pizza cheeses were well separated as storage prolonged and obviously discriminated as the higher the cooking temperature. The result of pattern recognition analysis based on discriminant function analysis showed that new brand of pizza cheese produced by Imsil Cheese Cooperative was located at middle between the flavors of the imported brands of pizza cheese and those of domestic brand of pizza cheeses. Imsil cheese has a unique flavor pattern among other variety of cheeses. Application of pattern recognition analysis by electronic nose might be useful and advanced technology for characterizing in flavor pattern of cheese products from different origins and different categories of cheeses.