Present Knowledge of the Metabolic Role of Vitamin B12 and Related Compounds, with Particular Reference to the Role of Cobalt in Ruminant Metabolism

J. W. G. Porter

doi:10.1079/PNS19530019

Present Knowledge of the Metabolic Role of Vitamin B12 and Related Compounds, with Particular Reference to the Role of Cobalt in Ruminant Metabolism

Published online by Cambridge University Press: 28 February 2007

J. W. G. Porter

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J. W. G. Porter: Affiliation:
National Institute for Research in Dairying, University of Reading

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Abstract
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Abstract

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Type: Research Article
Information: Proceedings of the Nutrition Society , Volume 12 , Issue 1 , March 1953 , pp. 106 - 114

DOI: https://doi.org/10.1079/PNS19530019 [Opens in a new window]
Copyright: Copyright © The Nutrition Society 1953

References

Amstein, H. R. V. (1951). Biochem. J. 48, 27.Google Scholar

Amstein, H. R. V. & Neuberger, A. (1951). Biochem. J. 48, ii.Google Scholar

Amstein, H. R. V. & Neuberger, A. (1952). Biochem. J. 50, xxxviii.Google Scholar

Borsook, H. & Dubnoff, J. W. (1947). J. biol. Chem. 169, 247.CrossRef Google Scholar

Coates, M. E. (1952). Brit. J. Nutr. 6, 335.CrossRef Google Scholar

Coates, M. E. Harrison, G. F., Ford, J. E., Kon, S. K. & Porter, J. W. G. (1952). Biochem. J. 51, vi.Google Scholar

Cuthbertson, W. F. J. (1952). Brit. J. Nutr. 6, 330.CrossRef Google Scholar

Davis, B. D. (1951). J. Bact. 62, 221.CrossRef Google Scholar

Davis, B. D. (1952). J. Bact. 64, 432.CrossRef Google Scholar

Davis, B. D. & Mingioli, E. S. (1950). J. Bact. 60, 17.CrossRef Google Scholar

Dawbarn, M. C., Hine, D. C. & Hughes, P. (1952). Nature, Lond., 170, 793.CrossRef Google Scholar

Dion, H. W., Calkins, D. G. & Pfiffner, J. J. (1952). J. Amer. chem. Soc. 74, 1108.CrossRef Google Scholar

Downing, M., Rose, I. A. & Schweigert, B. S. (1952). J. Bact. 64, 141.CrossRef Google Scholar

Dubnoff, J. W. (1950). Arch. Biochem. 27, 466.Google Scholar

Dubnoff, J. W. (1952). Arch. Biochem. 37, 37.CrossRef Google Scholar

Du Vigneaud, V., Chandler, J. P., Moyer, A. W. & Keppel, D. M. (1939). J. biol. Chem. 131, 57.CrossRef Google Scholar

Du Vigneaud, V. & Verly, W. G. (1950). J. Amer. chem. Sol. 72, 1049.CrossRef Google Scholar

Du Vigneaud, V., Verly, W. G. L., Wilson, J. E., Rachele, J. R., Ressler, C. & Kinney, J. M. (1951). J. Amer. chem. Soc. 73, 2782.CrossRef Google Scholar

Eakin, R. E. (1950). Abstr. Pap. Amer. chem. Soc. 117th Mtg, p. 3c.Google Scholar

Ford, J. E. (1952). Brit. J. Nutr. 6, 324.CrossRef Google Scholar

Ford, J. E. (1953). Nature, Lond., 171, 149.CrossRef Google Scholar

Ford, J. E., Holdsworth, E. S., Kon, S. K. & Porter, J. W. G. (1953). Nature, Lond., 171, 150.CrossRef Google Scholar

Ford, J. E., Kon, S. K. & Porter, J. W. G. (1952). Chem. & Ind. p. 495.Google Scholar

Ford, J. E. & Porter, J. W. G. (1952). Biochem. J. 51, v.Google Scholar

Gall, L. S. & Huhtanen, C. N. (1951). J. Dairy Sci. 34, 353.CrossRef Google Scholar

Girdwood, R. H. (1952). Brit.J. Nutr. 6, 315.CrossRef Google Scholar

Hausmann, K. (1951). Lancet, 260, 329.CrossRef Google Scholar

Henry, K. M. & Kon, S. K. (1951). Biochem. J. 48, xi.Google Scholar

Hoffmann, C. E., Stokstad, E. L. R., Franklin, A. L. & Jukes, T. H. (1948). J. biol. Chem. 176, 1465.CrossRef Google Scholar

Holdsworth, E. S. (1953). Nature, Lond., 171, 148.CrossRef Google Scholar

Hsu, P. T. & Combs, G. F. (1952). J. Nutr. 47, 73.CrossRef Google Scholar

Jonsson, S. & Mosher, W. A. (1950). J. Amer. chem. Soc. 72, 3316.CrossRef Google Scholar

Jukes, T. H. & Stokstad, E. L. R. (1951 a). Vitam. & Horm. 9, 1.CrossRef Google Scholar

Jukes, T. H. & Stokstad, E. L. R. (1951 b). Fed. Proc. 10, 386.Google Scholar

Kon, S. K. (1931). Biochem. J. 25, 482.CrossRef Google Scholar

Lampen, J. O. (1950). Abstr. Pap. Amer. chem. Soc. 118th Mtg, p. 25A.Google Scholar

Lampen, J. O., Jones, M. J. & Roepke, R. R. (1949). J. biol. Chem. 180, 423.CrossRef Google Scholar

Lewis, U. J., Tappan, D. V. & Elvehjem, C. A. (1952). J. biol. Chem. 194, 539.CrossRef Google Scholar

Liener, I. E. & Schultze, M. O. (1952). J. Nutr. 64, 224.Google Scholar

Ling, C. T. & Chow, B. F. (1951). Fed. Proc. 10, 216.Google Scholar

McGinnis, J., Hsu, P. T. & Graham, W. D. (1948). Poult. Sci. 27, 674.Google Scholar

Machlin, L. J., Lankenau, A. H., Denton, C. A. & Bird, H. R. (1952). J. Nutr. 46, 389.CrossRef Google Scholar

MacNutt, W. S. (1950). Nature, Lond., 166, 444.CrossRef Google Scholar

Marston, H. R. (1935). J. Coun. Sci. indust. Res. Aust. 8, 111.Google Scholar

Marston, H. R. (1952). Physiol. Rev. 32, 66.CrossRef Google Scholar

Marston, H. R. & Lee, H. J. (1952). Nature, Lond., 170, 791.CrossRef Google Scholar

Mcites, J. & Shay, J. C. (1951). Proc. Soc. exp. Biol., N.Y., 76, 196.Google Scholar

Menge, H. & Combs, G. F. (1950). Proc. Soc. exp. Biol., N.Y., 75, 139.CrossRef Google Scholar

Pfiffner, J. J., Calkins, D. G., Peterson, R. C., Bird, O. D., McGlohon, V. & Stipek, R. W. (1951). Abstr. Pap. Amer. chem. Soc. 120th Mtg, p. 22C.Google Scholar

Rose, I. A. & Schweigert, B. S. (1952). Proc. Soc.exp. Biol., N.Y., 79, 541.CrossRef Google Scholar

Rupp, J., Paschkis, K. E. & Cantarow, A. (1951). Proc. Soc. exp. Biol., N.Y., 76, 432.CrossRef Google Scholar

Sakami, W. (1950). J. biol. Chem. 187, 369.CrossRef Google Scholar

Sakami, W. & Welch, A. D. (1950). J. biol. chem. 187, 379.CrossRef Google Scholar

Shive, W. (1950). Ann. N.Y. Acad. Sci. 52, 1212.CrossRef Google Scholar

Siekevitz, P. & Greenberg, D. M. (1950). J. biol. Chem. 186, 275.CrossRef Google Scholar

Smith, E. L. (1952). Brit. J. Nutr. 6, 295.CrossRef Google Scholar

Stekol, J. A., Weiss, S. & Weiss, K. W. (1952). Arch. Biochem. Biophys. 36, 5.CrossRef Google Scholar

Underwood, E. J. & Filmer, J. F. (1935). Aust. vet. J. 11, 84.CrossRef Google Scholar

Ungley, C. C. (1952). Brit. J. Nutr. 6, 299.CrossRef Google Scholar

Weissbach, A., Elwyn, D. & Sprinson, D. B. (1950). J. Amer. chem. Soc. 72, 3316.CrossRef Google Scholar

Wijmenga, H. G. (1951). Onderzoekingen over vitamine B₁₂ en verwante factoren. Doctorate Thesis, University of Utrecht.Google Scholar

Zucker, L. M. & Zucker, T. F. (1948). Arch. Biochem. 16, 115.Google Scholar

Article contents

Present Knowledge of the Metabolic Role of Vitamin B12 and Related Compounds, with Particular Reference to the Role of Cobalt in Ruminant Metabolism

Abstract

References

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