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PROTEOLYSIS AND FLAVOR DEVELOPMENT IN CHEDDAR CHEESE MADE WITH THE SINGLE STARTER STRAINS LACTOCOCCUS-LACTIS SSP LACTIS UC317 OR LACTOCOCCUS-LACTIS SSP CREMORIS HP

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TY  - JOUR
  - LAW, J,FITZGERALD, GF,DALY, C,FOX, PF,FARKYE, NY
  - 1992
  - May
  - Journal of Dairy Science
  - PROTEOLYSIS AND FLAVOR DEVELOPMENT IN CHEDDAR CHEESE MADE WITH THE SINGLE STARTER STRAINS LACTOCOCCUS-LACTIS SSP LACTIS UC317 OR LACTOCOCCUS-LACTIS SSP CREMORIS HP
  - Validated
  - ()
  - SINGLE STARTER STRAINS CHEDDAR RIPENING BITTERNESS BITTER FLAVOR STREPTOCOCCUS-CREMORIS CALF RENNET FRACTIONS PROTEINASES PEPTIDES MILK
  - 75
  - 1173
  - 1185
  - Proteolysis and flavor development in Cheddar cheese made with single starter strains, Lactococcus lactis ssp. lactis UC317 or Lactococcus lactis ssp. cremoris HP, were evaluated over a 12-mo ripening. The proportion of N that was water-soluble was 7 to 12% higher, and the concentration of free amino acids was about three times higher throughout ripening for the cheeses made with strain UC317 than those made with strain HP. Cheese made with strain UC317 received a more favorable organoleptic score. These results indicate that single starter strains contribute in different ways to proteolysis in Cheddar cheese. An attempt was made to evaluate the propensity of HP to cause bitterness in Cheddar cheese; although starter numbers increased 10-fold by using a lower cooking temperature, a lower salt content, or both, bitterness did not ensue.
DA  - 1992/05
ER  - 
@article{V43340578,
   = {LAW,  J and FITZGERALD,  GF and DALY,  C and FOX,  PF and FARKYE,  NY },
   = {1992},
   = {May},
   = {Journal of Dairy Science},
   = {PROTEOLYSIS AND FLAVOR DEVELOPMENT IN CHEDDAR CHEESE MADE WITH THE SINGLE STARTER STRAINS LACTOCOCCUS-LACTIS SSP LACTIS UC317 OR LACTOCOCCUS-LACTIS SSP CREMORIS HP},
   = {Validated},
   = {()},
   = {SINGLE STARTER STRAINS CHEDDAR RIPENING BITTERNESS BITTER FLAVOR STREPTOCOCCUS-CREMORIS CALF RENNET FRACTIONS PROTEINASES PEPTIDES MILK},
   = {75},
  pages = {1173--1185},
   = {{Proteolysis and flavor development in Cheddar cheese made with single starter strains, Lactococcus lactis ssp. lactis UC317 or Lactococcus lactis ssp. cremoris HP, were evaluated over a 12-mo ripening. The proportion of N that was water-soluble was 7 to 12% higher, and the concentration of free amino acids was about three times higher throughout ripening for the cheeses made with strain UC317 than those made with strain HP. Cheese made with strain UC317 received a more favorable organoleptic score. These results indicate that single starter strains contribute in different ways to proteolysis in Cheddar cheese. An attempt was made to evaluate the propensity of HP to cause bitterness in Cheddar cheese; although starter numbers increased 10-fold by using a lower cooking temperature, a lower salt content, or both, bitterness did not ensue.}},
  source = {IRIS}
}
AUTHORSLAW, J,FITZGERALD, GF,DALY, C,FOX, PF,FARKYE, NY
YEAR1992
MONTHMay
JOURNAL_CODEJournal of Dairy Science
TITLEPROTEOLYSIS AND FLAVOR DEVELOPMENT IN CHEDDAR CHEESE MADE WITH THE SINGLE STARTER STRAINS LACTOCOCCUS-LACTIS SSP LACTIS UC317 OR LACTOCOCCUS-LACTIS SSP CREMORIS HP
STATUSValidated
TIMES_CITED()
SEARCH_KEYWORDSINGLE STARTER STRAINS CHEDDAR RIPENING BITTERNESS BITTER FLAVOR STREPTOCOCCUS-CREMORIS CALF RENNET FRACTIONS PROTEINASES PEPTIDES MILK
VOLUME75
ISSUE
START_PAGE1173
END_PAGE1185
ABSTRACTProteolysis and flavor development in Cheddar cheese made with single starter strains, Lactococcus lactis ssp. lactis UC317 or Lactococcus lactis ssp. cremoris HP, were evaluated over a 12-mo ripening. The proportion of N that was water-soluble was 7 to 12% higher, and the concentration of free amino acids was about three times higher throughout ripening for the cheeses made with strain UC317 than those made with strain HP. Cheese made with strain UC317 received a more favorable organoleptic score. These results indicate that single starter strains contribute in different ways to proteolysis in Cheddar cheese. An attempt was made to evaluate the propensity of HP to cause bitterness in Cheddar cheese; although starter numbers increased 10-fold by using a lower cooking temperature, a lower salt content, or both, bitterness did not ensue.
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