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Comparison of Cheddar cheeses produced with recombinant chymosin and with calf rennet using two dimensional high-performance liquid chromatography

Published online by Cambridge University Press:  01 June 2009

Fija M. Lagerwerf
Affiliation:
Unilever Research Laboratorium, PO Box 114, NL-3130 AC VlaardingenThe Netherlands Bijvoet Center for Biomolecular Research, Department of Mass Spectrometry, Utrecht University, PO Box 80083, NL-3508 TB Utrecht, The Netherlands
Pieter D. Van Wassenaar
Affiliation:
Unilever Research Laboratorium, PO Box 114, NL-3130 AC VlaardingenThe Netherlands
Johan Haverkamp
Affiliation:
Unilever Research Laboratorium, PO Box 114, NL-3130 AC VlaardingenThe Netherlands Bijvoet Center for Biomolecular Research, Department of Mass Spectrometry, Utrecht University, PO Box 80083, NL-3508 TB Utrecht, The Netherlands

Abstract

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Type
Short Communications
Copyright
Copyright © Proprietors of Journal of Dairy Research 1995

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References

REFERENCES

Barbano, D. M. & Rasmussen, R. R. 1992 Cheese yield performance of fermentation-produced chymosin and other milk coagulants. Journal of Dairy Science 75 112Google Scholar
Bines, V. E., Young, P. & Law, B. A. 1989 Comparison of Cheddar cheese made with a recombinant calfchymosin and with standard calf rennet. Journal of Dairy Research 56 657664Google Scholar
Broome, M. C. & Hickey, M. W. 1990 Comparison of fermentation produced chymosin and calf rennet in Cheddar cheese. Australian Journal of Dairy Technology 45 5359Google Scholar
Cortes, H. J. & Rothman, L. D. 1990 Multi-dimensional high-performance liquid chromatography. Chromatographic Science 50 219250 (Multidimensional Chromatography, Techniques and Applications (Ed. Cortes, H. J.). New York: Marcel Dekker)Google Scholar
Dalgleish, D. G. 1992 The enzymatic coagulation of milk. In Advanced Dairy Chemistry-1 Proteins. pp. 579619 (Ed. Fox, P. F.). London: Elsevier Applied ScienceGoogle Scholar
Fox, P. F. 1989 Proteolysis during cheese manufacture and ripening. Journal of Dairy Science 72 13791400Google Scholar
Harboe, M. K. 1992 Chymogen, a chymosin rennet manufactured by fermentation of Aspergillus niger. International Dairy Federation Bulletin no. 269 37Google Scholar
Kato, Y., Nakatani, S., Kitamura, T., Onaka, A. & Hashimoto, T. 1990 High-performance ion-exchange chromatography of peptides on a pellicular ion exchanger. Journal of Chromatography 513 384388Google Scholar
McMahon, D. J. & Brown, R. J. 1984 Enzymic coagulation of casein micelles: a review. Journal of Dairy Science 67 919929Google Scholar
Matsuoka, K., Taoka, M., Isobe, T., Okuyama, T. & Kato, Y. 1990 Automated high-resolution two-dimensional liquid chromatographic system for the rapid and sensitive separation of complex peptide mixtures. Journal of Chromatography 515 313320Google Scholar
NuÑez, M., Medina, M., Gaya, P., Guillen, A. M. & Rodríguez-Marín, M. A. 1992 Effect of recombinant chymosin on ewes' milk coagulation and Manchego cheese characteristics. Journal of Dairy Research 59 8187Google Scholar
Praaning-Van Dalen, D. P. 1992 Application and regulatory position of Maxiren. International Dairy Federation Bulletin no. 269 812Google Scholar
Rozing, G. P. & Goetz, H. 1988 Fast separation of biological macromolecules on non-porous, microparticulate columns. Journal of Chromatography 476 319Google Scholar
Van Den Berg, G. & De Koning, P. J. 1990 Gouda cheesemaking with purified calf chymosin and microbially produced chymosin. Netherlands Milk and Dairy Journal 44 189205Google Scholar