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Cheddar cheesemaking with recombinant calf chymosin synthesized in Escherichia coli

Published online by Cambridge University Press:  01 June 2009

Margaret L. Green
Affiliation:
*National Institute for Research in Dairying (University of Reading), Shinfield, Reading RG2 9AT, UK

Summary

The cheesemaking properties of recombinant chymosin from Escherichia coli were compared with those of standard rennet in parallel trials with three single strain starters. For each pair of cheeses the cheesemaking characteristics, recoveries of milk solids in the curds and compositions were similar. The rates and types of proteolysis and texture development during ripening between cheeses made with the two coagulants were not significantly different.

Type
Original Articles
Copyright
Copyright © Proprietors of Journal of Dairy Research 1985

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References

REFERENCES

Antonini, J. & Ribadeau-Dumas, B. 1971 [Isolation, purification and properties of two bovine gastric zymogens. Properties of the corresponding proteases.] Biochimie 53 321329CrossRefGoogle Scholar
Berridge, N. J. 1955 Preparation of a cheese with crystalline rennin. Journal of Dairy Research 22 384385CrossRefGoogle Scholar
Caffyn, J. E. & Baron, M. 1947 Scientific control in cheesemaking. Dairyman 64 345, 347, 349Google Scholar
Chapman, H. R. & Harrison, A. J. W. 1963 Control of acid development in Cheddar cheesemaking. Journal of the Society of Dairy Technology 16 139144CrossRefGoogle Scholar
Emtage, J. S., Angal, S., Doel, M. T., Harris, T. J. R., Jenkins, B., Lilley, G. & Lowe, P. A. 1983 Synthesis of calf prochymosin (prorennin) in Escherichia coli. Proceedings of the National Academy of Sciences, USA 80 36713675CrossRefGoogle ScholarPubMed
Fox, P. F. 1969 Milk-clotting and proteolytic activities of rennet, and of bovine pepsin and porcine pepsin. Journal of Dairy Research 36 427433CrossRefGoogle Scholar
Green, M. L. 1977 Review of the progress of Dairy Science: milk coagulants. Journal of Dairy Research 44 159188CrossRefGoogle Scholar
Green, M. L., Glover, F. A., Scurlock, E. M. W., Marshall, R. J. & Hatfield, D. S. 1981 Effect of use of milk concentrated by ultrafiltration on the manufacture and ripening of Cheddar cheese. Journal of Dairy Research 48 333341CrossRefGoogle Scholar
Green, M. L., Valler, M. J. & Kay, J. 1984 Assessment of the suitability for Cheddar cheesemaking of purified and commercial chicken pepsin preparations. Journal of Dairy Research 51 331340CrossRefGoogle Scholar
Harris, T. J. R., Lowe, P. A., Lyons, A., Thomas, P. G., Eaton, M. A. W., Millican, T. A., Patel, T. P., Bose, C. C., Carey, N. H. & Doel, M. T. 1982 Molecular cloning and nucleotide sequence of cDNA coding for calf preprochymosin. Nucleic Acids Research 10 21772187CrossRefGoogle ScholarPubMed
Hicks, C. L., O'leary, J. & Bucy, J. 1984 Use of recombinant chymosin in the manufacture of cheddar cheese. Journal of Dairy Science 67 (Supplement 1), 73Google Scholar
Marston, F. A. O., Lowe, P. A., Doel, M. T., Schoemaker, J. M., White, S. & Angal, S. 1984 Purification of calf prochymosin (prorennin) synthesised in Escherichia coli. Biotechnology 2 800804Google Scholar
Nelson, J. H. 1975 Impact of new milk clotting enzymes on cheese technology. Journal of Dairy Science 58 17391750CrossRefGoogle Scholar
Rothe, G. A. L., Harboe, M. K. & Martiny, S. C. 1977 Quantification of milk-clotting enzymes in 40 commercial bovine rennets, comparing rocket immunoelectrophoresis with an activity ratio assay. Journal of Dairy Research 44 7377CrossRefGoogle Scholar