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The Mode of Action of Vitamin C

Published online by Cambridge University Press:  28 February 2007

Leslie J. Harris
Affiliation:
Dunn Nutritional Laboratory, University of Cambridge and Medical Research Council
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Abstract

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Type
Research Article
Copyright
Copyright © The Nutrition Society 1953

References

Abbasy, M. A. (1937). Biochem. J. 31, 339.CrossRefGoogle Scholar
Abbasy, M. A., Harris, L. J. & Ellman, P. (1937). Lancet 233, 181.CrossRefGoogle Scholar
Anonymous (1950). Nutr. Rev. 8, 52.Google Scholar
Anonymous (1952). Nutr. Rev. 10, 40.Google Scholar
Bland, M. N., Constable, B. J., Harris, L. J. & Hughes, R. E. (1952 a).Biochem. J. 18, iv.Google Scholar
Bland, M. N., Constable, B. J., Harris, L. J. & Hughes, R. E. (1952 b). Congr. int. Biochim. II. Paris. Résumées Communications, p. 325.Google Scholar
Bourne, G. H. (1941). J. Physiol. 99, 9P.Google Scholar
Bourne, G. H. (1942). Quart. J. exp. Physiol 31, 319.CrossRefGoogle Scholar
Bourne, G. H. (1943). J. Physiol. 102,319.CrossRefGoogle Scholar
Bourne, G. H. (1944). Lancet, 246, 688.CrossRefGoogle Scholar
Bourne, G. H. (1944 a). Proc. R. Soc. Med. 37, 275.Google Scholar
Campbell, F. W., Ferguson, I. D. & Garry, R. C. (1950). Brit. J. Nutr. 4, 32.CrossRefGoogle Scholar
Crandon, J. H., Lund, C. C. & Dill, D. B. (1940). New Engl. J. Med. 223, 353.CrossRefGoogle Scholar
Crook, E. M. (1941). Biochem. J. 35, 226.CrossRefGoogle Scholar
Crook, E. M. & Hopkins, F. G. (1938). Biochem. J. 32, 1356.CrossRefGoogle Scholar
Delf, E. M. & Tozer, F. M. (1918).Biochem. J. 12, 416.CrossRefGoogle Scholar
Edman, B. (1947). Acta pharm. tox., Kbh., 3. 261.Google Scholar
Fish, E. W. & Harris, L. J. (1934). Phil. Trans. B. 223, 489.Google Scholar
Follis, R. H., Park, E. A. & Jackson, D. (1950). Johns Hopk. Hosp. Bull. 87, 569.Google Scholar
Forssman, S. & Frykholm, K. C. (1947). Acta med. scand. 128, 256.CrossRefGoogle Scholar
Friemann, W. (1936). Arch. Gewerbepath. Gewerbehyg. 7, 278.Google Scholar
Harrer, C. J. & King, C. G. (1941). J. biol. Chem. 138, III.CrossRefGoogle Scholar
Harris, L. J. (1934). Quoted by Fish, E. W. & Harris L. J. (1934). Phil. Trans. B. 223, 489.Google Scholar
Harris, L. J. (1935). Vitamins in Theory and Practice, 1st ed. Cambridge: University Press.Google Scholar
Harris, L. J., Passmore, R. & Pagel, W. (1937). Lancet 233, 183.CrossRefGoogle Scholar
Harris, L. J. & Ray, S. N. (1932). Biochem. J. 26, 2067.CrossRefGoogle Scholar
Harris, L. J. & Ray, S. N. (1933 a). Biochem.J. 27, 303.Google Scholar
Harris, L. J. & Ray, S. N. (1933 b). Biochem. J. 27, 2006.CrossRefGoogle Scholar
Harrison, D. C. (1933). Biochem. J. 27, 1501.CrossRefGoogle Scholar
Hill, C. H. & Scott, M. L. (1952). J. biol. Chem. 196, 195.CrossRefGoogle Scholar
Höjer, J. A. (1924). Acta paediat., Stockh., 3 (suppl.), p. 34.CrossRefGoogle Scholar
Höjer, J. A. (1926). Brit. J. exp. Path. 7, 356.Google Scholar
Hopkins, F. G. (1934). Chem. & Ind. 53, 874.Google Scholar
Hopkins, F. G. & Morgan, E. J. (1936). Biochem.J. 30, 1446.CrossRefGoogle Scholar
Horowitz, H. H., Doerschuk, A. P. & King, C. G. (1952). J. biol. Chem. 199. 193.CrossRefGoogle Scholar
Hughes, R. E., Harris, L. J., Constable, B. J. & Bland, M. N. (1952). Biochem. J. 18, iv.Google Scholar
Hunt, A. H. (1941). Brit. J. Surg. 28, 436.CrossRefGoogle Scholar
James, W. O., & Cragg, J. M. (1943). New Phytol. 42, 28.CrossRefGoogle Scholar
James, W. O., Heard, C. R. C. & James, J. M. (1944). New Phytol. 43, 62.CrossRefGoogle Scholar
Kellie, A. E. & Zilva, S. S. (1941). Biochem. J. 35, 783.CrossRefGoogle Scholar
Lan, T. H. & Sealock, R. R. (1944). J. biol. Chem. 155, 483.CrossRefGoogle Scholar
Lanman, T. H. & Ingalls, T. H. (1937). Ann. Surg. 105, 616.CrossRefGoogle Scholar
Lardy, H. A. [editor] (1949). Respiratory Enzymes. Minneapolis, Minn: Burgess Publishing Co.Google Scholar
Lauber, H. J. & Rosenfeld, W. (1938). Klin. Wschr. 17, 1587.CrossRefGoogle Scholar
Lemberg, R., Legge, J. W. & Lockwood, W. H. (1939). Biochem. J. 33, 754.CrossRefGoogle Scholar
Lemberg, R., Legge, J. W. & Lockwood, W. H. (1941 a).Biochem.J. 35, 328.CrossRefGoogle Scholar
Lemberg, R., Legge, J. W. & Lockwood, W. H. (1941 b). Biochem.J. 35, 339.CrossRefGoogle Scholar
Levine, S. Z., Marples, E. & Gordon, H. H. (1939). Science, 90, 620.CrossRefGoogle Scholar
Lexer, E. W. (1939). Arch. klin. Chir. 195, 611.Google Scholar
Lucas, B. G. B. (1941). Quoted by Peterson J. M. (1941). Nature, Lond., 148, 84.Google Scholar
Meyer, A. (1937). Z. Vitaminforsch. 6, 83.Google Scholar
Miller, W. H., Mallette, M. F., Roth, L. J. & Dawson, C. R. (1944). J. Amer. chem. Soc. 66, 514.CrossRefGoogle Scholar
Murray, P. D. F. & Kodicek, E. (1949 a).J. Anat., Lond., 83, 158.Google Scholar
Murray, P. D. F. & Kodicek, E. (1949 b) J. Anat., Lond., 83, 205.Google Scholar
Murray, P. D. F. & Kodicek, E. (1949 c) J. Anat., Lond., 83, 285.Google Scholar
Painter, H. A. & Zilva, S. S. (1950) Biochem. J. 46, 542.CrossRefGoogle Scholar
Pfankuch, E. (1934). Naturwissenschuften, 22, 821.CrossRefGoogle Scholar
Pirani, C. L. (1952). Metabolism, I, 197.Google Scholar
Quastel, J. H. & Wheatley, A. H. M. (1934). Biochem. J. 28, 1014.CrossRefGoogle Scholar
Raabe, S. (1938). Biochem. Z. 299, 141.Google Scholar
Reinits, K. G. (1950). J. biol. Chem. 182, 11.CrossRefGoogle Scholar
Roberston, W. van B. (1950). J. biol. Chem. 187, 673.Google Scholar
Robertson, W. van B. (1952 a). J. biol. Chem. 196, 403.CrossRefGoogle Scholar
Robertson, W. van B. (1952 b). J. biol. Chem. 197, 495.CrossRefGoogle Scholar
Rogers, W. F. & Gardner, F. H. (1949). J. Lab. clin. Med. 34, 1491.Google Scholar
Salmon, R. J. & May, C. D. (1950). J. Lab. clin. Med. 36, 591.Google Scholar
Sayers, G., Sayers, M. A., Lewis, H. L. & Long, C. N. H. (1944). Proc. Soc.exp. Biol., N.Y., 55, 238.CrossRefGoogle Scholar
Schwartz, M. A. & Williams, J. N. (1952). J. biol. Chem. 194, 711.CrossRefGoogle Scholar
Sealock, R. R., Perkinson, J. D. & Silberstein, H. E. (1940). J. biol. Chem. 133, Ixxxvii.Google Scholar
Sealock, R. R. & Silberstein, H. E. (1940). J. biol. Chem. 135, 251.CrossRefGoogle Scholar
Snow, G. A. & Zilva, S. S. (1941). Biochem. J. 35, 878.CrossRefGoogle Scholar
Stewart, C. P., Learmonth, J. R. & Pollock, G. A. (1941). Lancet, 240, 818.CrossRefGoogle Scholar
Szent-Györgyi, A. (1928). Biochem. J. 22, 1387.CrossRefGoogle Scholar
Szent-Györgyi, A. (1938). Nobel-Vortrag gehalten am II Dez. 1937 am Karolinischen Medico Chirurgischen Institut zu Stockholm, Stockholm: P.A. Norstedt and Söner.Google Scholar
Taffel, M. & Harvey, S. C. (1938). Proc. Soc.exp. Biol., N.Y., 38, 518.CrossRefGoogle Scholar
Welch, A. D., Nichol, C. A., Anker, R. M. & Boehne, J. W. (1951). J. Pharmacol. 103, 403.Google Scholar
Wolbach, S. B. & Howe, P. R. (1926). Arch. Path. (Lab. Med.) I, 1.Google Scholar
Woodruff, C. W. (1950). J. Lab. clin. Med. 36, 640.Google Scholar
Zilva, S. S. (1935). Biochem. J. 29, 100.CrossRefGoogle Scholar