Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-20T05:41:12.175Z Has data issue: false hasContentIssue false

Formation of methyl ketones during ripening of Cheddar cheese

Published online by Cambridge University Press:  01 June 2009

N. J. Walker
Affiliation:
New Zealand Dairy Research Institute, Palmerston North, New Zealand
A. R. Keen
Affiliation:
New Zealand Dairy Research Institute, Palmerston North, New Zealand

Summary

Cheddar cheeses made using single strains AM2 and HP of Streptococcus cremoris as starter were analysed for methyl ketones during ripening at 7°C. The level of odd-numbered C3–C15 methyl ketones increased very slowly in all cheeses and at maturity represented only 15–20% of the level potentially available from the degradation of esterified β-ketoalkanoic acids of milk fat in cheese. The potential for formation of the methyl ketones in unripened cheese curd was similar to the sum of free and potentially available ketones in mature cheese which suggests that the oddnumbered ketones once formed are not reduced or otherwise degraded by the normal cheese microflora. Significant variations were observed in the level of 2-butanone, which, in some cases, far exceeded the quantity which could be formed by breakdown of β-ketovaleric acid. Organoleptic evaluations and comparison of the levels of methyl ketones present in mature cheese with published threshold data suggest that while the methyl ketones may contribute to flavour they do not in their own right impart a typical mature Cheddar flavour to cheese.

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 1974

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Bills, D. D., Willits, R. E. & Day, E. A. (1966). Journal of Dairy Science 49, 681.CrossRefGoogle Scholar
Day, E. A. (1965). Food Technology 19, 1585.Google Scholar
Day, E. A., Bassette, R. & Keeney, M. (1960). Journal of Dairy Science 43, 463.CrossRefGoogle Scholar
Day, E. A. & Keeney, M. (1958). Journal of Dairy Science 41, 718.Google Scholar
Dimick, P. S. & Walker, H. M. (1968). Journal of Dairy Science 51, 478.CrossRefGoogle Scholar
Fryer, T. F., Reiter, B. & Lawrence, R. C. (1967). Journal of Dairy Science 50, 388.CrossRefGoogle Scholar
Harvey, R. J. & Walker, J. R. L. (1960). Journal of Dairy Research 27, 335.CrossRefGoogle Scholar
Honkanen, E., Karvonen, P. & Virtanen, A. I. (1964). Acta Chemica Scandinavica 18, 612.CrossRefGoogle Scholar
Langler, J. E. & Day, E. A. (1964). Journal of Dairy Science 47, 1291.CrossRefGoogle Scholar
Lawrence, R. C. (1963 a). Journal of Dairy Research 30, 161.CrossRefGoogle Scholar
Lawrence, R. C. (1963 b). Journal of Dairy Research 30, 235.CrossRefGoogle Scholar
Lawrence, R. C. (1967). New Zealand Journal of Dairy Technology 2, 55.Google Scholar
Lawrence, R. C. & Pearce, L. E. (1968). New Zealand Journal of Dairy Technology 3, 137.Google Scholar
McGugan, W. A., Howsam, S. G., Elliott, J. A., Emmons, D. B., Reiter, B. & Sharpe, M. E. (1968). Journal of Dairy Research 35, 237.CrossRefGoogle Scholar
Morgan, M. E. & Anderson, E. O. (1956). Journal of Dairy Science 39, 253.CrossRefGoogle Scholar
Patton, S., Wong, N. P. & Forss, D. A. (1958). Journal of Dairy Science 41, 857.CrossRefGoogle Scholar
Scarpellino, R. (1961). Dissertation Abstracts 22, 421.Google Scholar
Scarpellino, R. & Kosikowski, F. V. (1962). Journal of Dairy Science 45, 343.CrossRefGoogle Scholar
Schwartz, D. P., Haller, H. S. & Keeney, M. (1963). Analytical Chemistry 35, 2191.CrossRefGoogle Scholar
Schwaetz, D. P. & Parks, O. W. (1961). Analytical Chemistry 33, 1396.CrossRefGoogle Scholar
Schwartz, D. P., Parks, O. W. & Yoncoskie, R. A. (1966). Journal of the American Oil Chemists' Society 43, 128.CrossRefGoogle Scholar
Schwartz, D. P., Shamey, J., Brewington, C. R. & Parks, O. W. (1968). Microchemical Journal 13, 407.CrossRefGoogle Scholar
Shriner, R. L., Fuson, R. C. & Curtin, D. Y. (1964). The Systematic Identification of Organic Compounds, 5th edn, pp. 253254. New York: John Wiley and Sons, Inc.Google Scholar
Urbach, G. (1963). Journal of Chromatography 12, 196.CrossRefGoogle Scholar
Van Der Ven, B., Begemann, P. H. & Schogt, J. C. M. (1963). Journal of Lipid Research 4, 91.CrossRefGoogle Scholar
Walker, J. R. L. (1961). Journal of Dairy Research 28, 1.CrossRefGoogle Scholar