Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-08T12:23:50.230Z Has data issue: false hasContentIssue false

Use of Isotopic Tracers in the Study of Protein Metabolism

Published online by Cambridge University Press:  28 February 2007

H. D. Griffith
Affiliation:
Department of Natural Philosophy, University of Aberdeen
Rights & Permissions [Opens in a new window]

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Meeting Report
Copyright
Copyright © The Nutrition Society 1946

References

Chapman, S. and Cowling, T. G. (1939). Mathematical Theory of Non-uniform Gases, p. 252. Cambridge University Press.Google Scholar
Chapman, S. and Dootson, F. W. (1917). Phil. Mag. 33, 248.CrossRefGoogle Scholar
Clausius, K. and Dickel, G. (1938, 1). Naturwissenschaften, 26, 546.CrossRefGoogle Scholar
Clausius, K. and Oickel, G. (1938, 2). Naturwissenschaften, 27, 487.CrossRefGoogle Scholar
Dole, M. (1936, 1). J. Amer. chem. Soc. 58, 580.CrossRefGoogle Scholar
Dole, M. (1936, 2). J. Amer. chem. Soc. 58, 2552.CrossRefGoogle Scholar
Evans, R. D. (1941). J. appl. Phys. 12, 262.CrossRefGoogle Scholar
Evans, R. D. (1944). Medical Physics. [Ed. Glasser, ]. p. 643. New York: The Year Book Publishers.Google Scholar
Evans, R. D. and Mugele, R. A. (1936). Rev. sci. Instrum. 7, 441.CrossRefGoogle Scholar
Fenske, M. R., Tongberg, C. O. and Quiggle, D. (1934). Industr. Engng Chem. 26, 1169.CrossRefGoogle Scholar
Foster, G. L., Schoenheimer, R. and Rittenberg, D. (1939). J. biol. Chem. 127, 321.CrossRefGoogle Scholar
Gaunt, W. E., Griffith, H. D. and Irving, J. T. (1942). J. Physiol. 100, 372.CrossRefGoogle Scholar
Hevesy, G. V. (1923). Biochem. J. 17, 439.CrossRefGoogle Scholar
Ibbs, T. L. and Grew, K. E. (1931). Proc. R. phys. Soc. Lond. 43, 142.CrossRefGoogle Scholar
Keston, A. S. (1944). Medical Physics. [Ed. Glasser, ]. p. 658. New York: The Year Book Publishers.Google Scholar
Lewis, G. N. (1933). J. Amer. chem. Soc. 55, 1298.Google Scholar
Lifschutz, H. (1939). Rev. sci. Instrum. 10, 21.CrossRefGoogle Scholar
Loofbourow, J. R. (1940). Rev. mod. Phys. 4, 267.CrossRefGoogle Scholar
McKay, H. A. C. (1941). Rev. sci. Instrum. 12, 104.CrossRefGoogle Scholar
Nier, A. O. (1940). Phys. Rev. 57, 31.Google Scholar
Nier, A. O. and Gulbransen, E. (1939). J. Amer. chem. Soc. 61, 697.CrossRefGoogle Scholar
Ruben, S. and Kamen, M. D. (1941). J. appl. Phys. 12, 311.Google Scholar
Schoenhcimer, R. and Rittenberg, D. (1939). J. biol. Chem. 127, 285.CrossRefGoogle Scholar
Seaborg, G. T. (1944). Rev. mod. Phys. 16, 3.CrossRefGoogle Scholar
Smith, J. H. C. and Cowie, D. B. (1941). J. appl. Phys. 12, 78.CrossRefGoogle Scholar
Smyth, H. D. (1945). Atomic Energy, p. 70. London: H.M.S.O.Google Scholar
Szilard, L. and Chalmers, W. (1934). Nature Lond., 134, 462.CrossRefGoogle Scholar
Taylor, H. S. (1939). Nature Lond., 144, 8.CrossRefGoogle Scholar
Thode, H. G. and Urey, H. G. (1939). J. chem. Phys. 7, 36.CrossRefGoogle Scholar
Urey, H. C. (1941). J. appl. Phys. 12, 270.CrossRefGoogle Scholar