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Changes in proteins of Domiati cheese during pickling

Published online by Cambridge University Press:  01 June 2009

M. H. Abd El-Salam
Affiliation:
Laboratory of Food Technology and Dairying, National Research Centre, Cairo, Egypt
Safinaz El-Shibiny
Affiliation:
Laboratory of Food Technology and Dairying, National Research Centre, Cairo, Egypt

Summary

Domiati cheese from homogenized and unhomogenized pasteurized milk was pickled for 4 months at room temperature. During pickling, the soluble tyrosine and tryptophan contents of the cheese gradually increased, indicating progressive proteolysis.

Gel filtration of cheese extract on Sephadex G-25 revealed the presence of nitrogenous substances of various molecular weights. The maximum formation of amino acids and related substances was observed after 15 days storage.

The changes in the electrophoretic patterns of proteins in the cheese during pickling indicated that both αs - and β-caseins were attacked. β-Casein, however, was much less affected.

Homogenization was found to affect the formation of soluble nitrogenous substances, but was without effect on the electrophoretic pattern of the protein in the cheese.

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 1972

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References

REFERENCES

Ahmed, N., El-Shibiny, S. & Abd El-Salam, M. H.Indian J. Dairy Sci. (in the Press).Google Scholar
Aschaffenburg, R. & Thymann, M. (1965). J. Dairy Sci. 48, 1524.CrossRefGoogle Scholar
Edwards, J. L. Jr & Kosikowski, F. V. (1969). J. Dairy Sci, 52, 1675.CrossRefGoogle Scholar
El Sadek, G. M. & Abd El Motteleb, L. (1958). J. Dairy Res. 25, 85.CrossRefGoogle Scholar
Fahmi, A. H. & Sharara, H. A. (1950). J. Dairy Res. 17, 312.CrossRefGoogle Scholar
Ledford, R. A., Chen, J. H. & Nath, K. R. (1968). J. Dairy Sci. 51, 792.CrossRefGoogle Scholar
Moore, S. & Stein, W. H. (1954). J. biol. Chem. 211, 907.CrossRefGoogle Scholar
Morr, C. V. (1971). J. Dairy Sci. 54, 339.CrossRefGoogle Scholar
Nagib, M. M. (1968). Thesis, Ein Shams University, Cairo.Google Scholar
Schormüller, J. (1968). Adv. Food Res. 16, 231.CrossRefGoogle Scholar
Sharara, H. A. (1959). Indian J. Dairy Sci. 12, 77.Google Scholar
Smithies, O. (1959). Adv. Protein Chem. 14, 65.CrossRefGoogle Scholar
Teama, Z. Y. (1967). Thesis, Ein Shams University, Cairo.Google Scholar
Vakaleris, D. G. & Price, W. V. (1959). J. Dairy Sci. 42, 264.CrossRefGoogle Scholar