Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-28T17:22:31.209Z Has data issue: false hasContentIssue false
  • English
  • Français

The Vitamin B Complex: Introductory Survey

Published online by Cambridge University Press:  28 February 2007

L. J. Harris  and
E. Kodicek
L. J. Harris
Affiliation:
Dunn Nutritional Laboratory, Cambridge
E. Kodicek
Affiliation:
Dunn Nutritional Laboratory, Cambridge
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Meeting Report
Information
Proceedings of the Nutrition Society , Volume 4 , Issue 2 , June 1946 , pp. 81 - 92
Copyright
Copyright © The Nutrition Society 1946

References

Anonymous (1944). Nutr. Rev. 2, 163.Google Scholar
Banerji, G. G. and Harris, L. J. (1939). Biochem. J. 33, 1346.CrossRefGoogle Scholar
Bauernfeind, J. C., Sotier, A. L. and Boruff, C. S. (1942). Industr. Engng Chem., Anal. Ed. 14, 666.CrossRefGoogle Scholar
Bergel, F. and Todd, A. R. (1937). J. chem. Soc. p. 1504.Google Scholar
Bergel, F. and Todd, A. R. (1938). J. chem. Soc. p. 26.Google Scholar
Best, C. H. and Lucas, C. C. (1943). Vitumins and Hormones, 1, 1.CrossRefGoogle Scholar
Bickel, A. (1924). Biochem. Z. 146, 493.Google Scholar
Birch, T. W., Chick, H. and Martin, C. J. (1937). Biochem. J. 31, 2065.Google Scholar
Birch, T. W., György, P. and Harris, L. J. (1935). Biochem. J. 29, 2830.CrossRefGoogle Scholar
Buchman, E. R. and Richardson, E. M. (1945). J. Amer. chem. Soc. 67, 395.CrossRefGoogle Scholar
Bueding, E., Stein, M. H. and Wortis, H. (1941). J. biol. Chem. 140, 697.Google Scholar
Chick, H., Copping, A. M. and Edgar, S. H. (1935). Biochem. J. 29, 722.CrossRefGoogle Scholar
Chick, H., Macrae, T. F., Martin, A. J. P. and Martin, C. J. (1938). Biochem. J. 32, 844.CrossRefGoogle Scholar
Collazo, J. A. (1922). Biochem. Z. 134, 194.Google Scholar
Conner, R. T. and Straub, G. J. (1941). Industr. Engng Chem. Anal. Ed. 13, 385.CrossRefGoogle Scholar
Copping, A. M. (1943). Biochem. J. 37, 12.Google Scholar
Dann, W. J. (1937). Science, 86, 616.Google Scholar
Dann, W. J. and Handler, P. (1941). J. biol. Chem. 140, 201.CrossRefGoogle Scholar
Dann, W. J. and Subbarow, Y. L. (1938). J. Nutrit. 16, 183.CrossRefGoogle Scholar
Eijkman, C. (1897). Virchows Arch. 148, 523.CrossRefGoogle Scholar
Ellinger, P. and Benesch, R. (1945). Lancet, 248, 433.Google Scholar
Ellinger, P. and Coulson, R. A. (1943). Nature, Lond., 152, 383.CrossRefGoogle Scholar
Ellinger, P. and Coulson, R. A. (1944). Biochem. J. 38, 265.Google Scholar
Ellinger, P., Glock, G. E. and Platt, B. S. (1942). Biochem. J. 36, xi.Google Scholar
El-Sadr, M. M., Macrae, T. F. and Work, C. E. (1940). Biochem. J. 34, 601.Google Scholar
Elvehjem, C. A., Madden, R. J., Strong, F. M. and Woolley, D. W. (1937). J. Amer. chem. Soc. 59, 1767.CrossRefGoogle Scholar
Fouts, P. J., Helmer, O. M., Lepkovsky, S. and Jukes, T. H. (1937). Proc. Soc. exp. Biol., N.Y., 37, 405.Google Scholar
Gavrilescu, N., Meiklejohn, A. P., Passmore, R. and Peters, R. A. (1932). Proc. roy. Soc. (B), 110, 431.Google Scholar
Grewe, R. (1936). Hoppe-Seyl. Z. 242, 89.CrossRefGoogle Scholar
Gunsalus, I.C., Bellamy, W. D. and Umbreit, W. W. (1944). J.biol. Chem. 155,685.CrossRefGoogle Scholar
György, P. (1934). Nature Lond., 133, 498.CrossRefGoogle Scholar
György, P. (1935). Biochem. J. 29, 741.Google Scholar
Harris, L. J. (1935). Biochem. J. 29, 776.Google Scholar
Harris, L. J. (1937). Biochem. J. 31, 1414.CrossRefGoogle Scholar
Harris, L. J. (1938). Biochem. J. 32, 1479.CrossRefGoogle Scholar
Harris, L. J. (1940). Rep. Progr. Chem. 37, 387.Google Scholar
Harris, L. J. and Hassan, A. (1937). Nature, Lond., 140, 1070.Google Scholar
Harris, L. J. and Leong, P. C. (1936). Lancet, 230, 886.CrossRefGoogle Scholar
Harris, L. J., Leong, P. C. and Ungley, C. C. (1938). Lancet, 234, 539.Google Scholar
Harris, L. J. and Raymond, W. D. (1939). Biochem. J. 33, 2037.CrossRefGoogle Scholar
Harris, L. J. and Wang, Y. L. (1941, 1). Biochem. J. 35, 1050.CrossRefGoogle Scholar
Harris, L. J. and Wang, Y. L. (1941, 2). Biochem. J. 35, 1068.Google Scholar
Hodson, A. Z. and Norris, L. C. (1939). J. biol. Chem. 131, 621.Google Scholar
Hofmann, K. (1943). Advanc. Enzymol. 3, 289.Google Scholar
Huff, J. W. and Perlzweig, W. A. (1943). J. biol. Chem. 150, 395.Google Scholar
Huff, J. W. and Perlzweig, W. A. (1944). J. biol. Chem. 155, 345.Google Scholar
Inawashiro, R. and Hayasaka, E. (1928). Tohoku J. exp. Med. 12, 1.Google Scholar
Jansen, B. C. P. and Donath, W. F. (1926). Chem. Weekbl. 23, 201.Google Scholar
Jukes, T. H. (1939). J. Amer. chem. Soc. 61, 975.Google Scholar
Knight, B. C. J. G. (1946). Proc. Nutr. Soc., 4, 116.Google Scholar
Kodicek, E. (1940). Biochem. J. 34, 712.Google Scholar
Kodicek, E. (1941). Ph.D. Thesis. Cambridge.Google Scholar
Kodicek, E. and Wang, Y. L. (1941). Nature, Lond., 148, 23.Google Scholar
Kodicek, E. and Worden, A. N. (1944). Nature, Lond., 154, 17.Google Scholar
Kodicek, E. and Worden, A. N. (1945). Bioehem. J. 39, 78.Google Scholar
Koehn, C.J. and Elvehjem, C. A. (1937). J. biol. Chem. 118, 693.Google Scholar
Krehl, W. A., Elvehjem, C. A. and Strong, F. M. (1944). J. biol. Chem. 156, 13.Google Scholar
Krehl, W. A. and Strong, F. M. (1944). J. biol. Chem. 156, 1.CrossRefGoogle Scholar
Kuhn, R., György, P. and Wagner-Jauregg, T. (1933). Ber. dtsch. chem. Ges. 66,576.CrossRefGoogle Scholar
Lohmann, K. and Schuster, P. (1937, 1). Naturwissenschuften, 25, 26.Google Scholar
Lohmann, K. and Schuster, P. (1937, 2). Biochem. Z. 294, 188.Google Scholar
Luckey, T. D., Teply, L. J. and Elvohjem, C. A. (1944). Science, 100, 201.CrossRefGoogle Scholar
McHenry, E. W. and Gavin, G. (1941). J. biol Chem. 138, 471.Google Scholar
Melnick, D. and Field, H. (1942, 1). J. Nutrit. 24, 131.Google Scholar
Melnick, D. and Field, H. (1942, 2). J. Nutrit. 24, 139.Google Scholar
Najjar, V. A. and Holt, L. E. (1940). Johns Hopk. Hosp. Bull. 67, 107.Google Scholar
Najjar, V. A. and Holt, L. E. (1941). Science, 93, 20.Google Scholar
Najjar, V. A. and Holt, L. E. (1942). Johns Hopk. Hosp. Bull. 70, 329.Google Scholar
Najjar, V. A., White, B. and Scott, D. B. M. (1944). Johns Hopk. Hosp. Bull. 74, 378.Google Scholar
Perlzweig, W.A., Levy, E. D. and Sarret, H. P. (1940). J. biol. Chem. 136, 729.Google Scholar
Platt, B. S. (1938). Trans. R. Soc.trop. Med. Hyg. 31, 493.Google Scholar
Platt, B. S. and Lu, G. D. (1935). Proc. physiol. Sec. 3rd gen. Conf. Chin. med. Ass.Google Scholar
Platt, B. S. and Lu, G. D. (1936). Quart. J. Med. 5, 355.Google Scholar
Platt, B. S. and Webb, R. A. (1946). Proc. Nutr. Soc. 4, 132.Google Scholar
Price, D. and Pickel, F. D. (1941). J. Amer. chem. Soc. 63, 1067.Google Scholar
Quastel, J. H. (1946). Proc. Nutr. Soc. 4, 92.Google Scholar
Reid, D. F., Lepkovsky, S., Bonner, D. and Tatum, E. L. (1944). J. biol. Chem. 155, 299.Google Scholar
Robinson, F. A. (1946). Proc. Nutr. Soc. 4, 106.Google Scholar
Ruffin, J. M., Cayer, D. and Perlzweig, W. A. (1944). Gastroenterology, 3, 340.Google Scholar
Schlenk, F. and Snell, E. E. (1945). J. biol. Chem. 157, 425.Google Scholar
Scott, M. L., Norris, L. C., Heuser, G. F. and Bruce, W. F. (1945). J. biol. Chem. 158, 291.Google Scholar
Shils, M. E., Day, H. G. and McCollum, E. V. (1941). J. biol. Chem. 139, 145.Google Scholar
Smith, D. T., Ruffin, J. M. and Smith, S. G. (1937). J. Amer. med. Ass. 109, 2054.Google Scholar
Snell, E. E. and Strong, F. M. (1939). Industr. Engng Chem., Anal. Ed. 11, 346.Google Scholar
Snell, E. E. and Wright, L. D. (1941). J. biol. Chem. 139, 675.Google Scholar
Swaminathan, M. (1938). Nature, Lond., 141, 830.CrossRefGoogle Scholar
Swaminathan, M. (1944). Indian J. med. Res. 32, 39.Google Scholar
Thompson, R. H. and Johnson, R. E. (1934). Chem. and Ind. 53, 1024.Google Scholar
Thompson, R. H. and Johnson, R. E. (1935). Biochem. J. 29, 694.Google Scholar
Todd, A. R. and Bergel, F. (1937). J. chem. Soc. p. 364.Google Scholar
Waisman, H. A. and Elvehjem, C. A. (1941). Industr. Engng Chem., Anal. Ed. 13, 221.Google Scholar
Wang, Y. L. and Harris, L. J. (1939). Biochem. J. 33, 1356.Google Scholar
Wang, Y. L. and Kodicek, E. (1943). Biochem. J. 37, 530.Google Scholar
Wang, Y.L. and Kodicek, E. (1946). Biochem. J. In press.Google Scholar
Wang, Y. L. and Yudkin, J. (1940). Biochem. J. 34, 343.Google Scholar
Williams, R. D., Mason, H. L. and Wilder, Z. M. (1943). J. Nutrit. 25, 71.Google Scholar
Williams, R. J. (1943). Advanc. Enzymol. 3, 253.Google Scholar
Williams, R. R. (1936). J. Amer. chem. Soc. 58, 1063.Google Scholar
Williams, R. R. and Cline, J. K. (1936). J. Amer. chem. Soc. 58, 1504.CrossRefGoogle Scholar
Wills, L. (1946). Proc. Nutr. Soc. 4, 140.CrossRefGoogle Scholar
Windaus, A., Tschesche, R. and Grewe, R. (1935). Hoppe-Seyl. Z. 237, 98.Google Scholar
Woolley, D. W., Waisman, H. A. and Elvehjem, C. A. (1939). J. Amer. chem. Soc. 61, 977.Google Scholar