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The effect of certain dietary factors on the apparent absorption of magnesium by the rat

Published online by Cambridge University Press:  09 March 2007

Joyce Toothill
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading
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Abstract

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Type
Research Article
Copyright
Copyright © The Nutrition Society 1963

References

REFERENCES

Ackroyd, H. & Hopkins, F. G. (1916). Biochem. J. 10, 551.CrossRefGoogle Scholar
Alcock, N. & MacIntyre, I. (1960). Biochem. J. 76, 19P.Google Scholar
Association of Official Agricultural Chemists (1955). Official Methods of Analysis, 8th ed., p. 13. Washington, D.C.: Association of Official Agricultural Chemists.Google Scholar
Bunce, G. E., Chiemchaisri, Y. & Phillips, P. H. (1962). J. Nutr. 76, 23.CrossRefGoogle Scholar
Colby, R. W. & Frye, C. M. (1951 a). Amer. J. Physiol. 166, 209.CrossRefGoogle Scholar
Colby, R. W. & Frye, C. M. (1951 b). Amer. J. Physiol. 166, 408.CrossRefGoogle Scholar
Davidson, J. (1952). Analyst, 77, 263.CrossRefGoogle Scholar
De, H. N. & Basu, K. P. (1949). Indian J. med. Res. 37, 213.Google Scholar
de Loureiro, J. A. (1931). Arch. Pat., Lisboa, 3, 72.Google Scholar
Duckworth, J. & Godden, W. (1938). Analyst, 63, 805.CrossRefGoogle Scholar
Forbes, R. M. (1961). Fed. Proc. 20, 293.Google Scholar
Godden, W. (editor) (1937). Tech. Commun. Bur. Anim. Nutr., Aberd., no. 9.Google Scholar
Head, M. J. & Rook, J. A. F. (1955). Nature, Lond., 176, 262.CrossRefGoogle Scholar
Head, M. J. & Rook, J. A. F. (1957). Proc. Nutr. Soc. 16, 25.CrossRefGoogle Scholar
Hegsted, D. M., Vitale, J. J. & McGrath, H. (1956). J. Nutr. 58, 175.CrossRefGoogle Scholar
Heller, V. G. & Haddad, M. (1936). J. biol. Chem. 113, 439.CrossRefGoogle Scholar
Kitson, R. E. & Mellon, M. G. (1944). Industr. Engng Chem. (Anal.), 16, 379.CrossRefGoogle Scholar
Kunkel, H. O. & Pearson, P. B. (1948). Arch. Biochem. 18, 461.Google Scholar
Leichsenring, J. M., Norris, L. M. & Lamison, S. A. (1951). J. Nutr. 45, 477.CrossRefGoogle Scholar
McAleese, D. M. & Forbes, R. M. (1961). J. Nutr. 73, 94.CrossRefGoogle Scholar
McCance, R. A., Widdowson, E. M. & Lehmann, H. (1942). Biochem. J. 36, 686.CrossRefGoogle Scholar
McCrudden, F. H. (1911). J. biol. Chem. 10, 187.CrossRefGoogle Scholar
McKinlay, H. (1951). J. Anim. Tech. Ass. 2, no. 2, p. 2.Google Scholar
Malcolm, J. (1905). J. Physiol. 32, 183.CrossRefGoogle Scholar
Meintzer, R. B. & Steenbock, H. (1955). J. Nutr. 56, 285.CrossRefGoogle Scholar
Nugara, D. & Edwards, H. M. Jr. (1961). Fed. Proc. 20, 294.Google Scholar
O'Dell, B. L., Morris, E. R., Pickett, E. E. & Hogan, A. G. (1957). J. Nutr. 63, 65.CrossRefGoogle Scholar
O'Dell, B. L., Morris, E. R. & Regan, W. O. (1960). J. Nutr. 70, 103.CrossRefGoogle Scholar
Ross, D. B. (1961). Nature, Lond., 189, 840.CrossRefGoogle Scholar
Smith, R. H. (1957). Biochem. J. 67, 472.CrossRefGoogle Scholar
Tufts, E. V. & Greenberg, D. M. (1937-8). J. biol. Chem. 122, 715.CrossRefGoogle Scholar