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Recent Studies on Vitamin K

Published online by Cambridge University Press:  28 February 2007

H. Dam
Affiliation:
Department of Biochemistry and Nutrition, Polytechnic Institute, Copenhagen
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Abstract

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Type
Research Article
Copyright
Copyright © The Nutrition Society 1953

References

Refierences

Dam, H. & Sendergaard, E. (1948). Biochim. biophys. Acta, 2, 409.CrossRefGoogle Scholar
Dam, H. & Sendergaard, E. Acta. pharmacol. tox., Kbh. (To be published.)Google Scholar
Dyggve, H. V. (1952). Undersøgelser over K-Vitaminets Betydning for Blødninger hos Nyfødte. Copenhagen: Nyt Nordisk Forlag.Google Scholar
Fantl, P. & Nance, M. (1946). Nature, Lond., 158, 708.CrossRefGoogle Scholar
Hay, J. D., Hudson, F. P. & Rodgers, T. S. (1951). Lancet, 260, 423.CrossRefGoogle Scholar
Hellman, L. M. & Shettles, L. B. (1942). Sth. med. J., Bgham, Ala., 35, 289.CrossRefGoogle Scholar
James, D. F., Bennett, I. L. Jr., Scheinberg, P. & Butler, J. J. (1949). Arch. intern. Med. 83, 632.CrossRefGoogle Scholar
Koller, F. & Held, E. (1952). Gynaecologia, 134,43.Google Scholar
Koller, F., Loeliger, A. & Duckert, F. (1951). Acta. haemat. 6, 1.CrossRefGoogle Scholar
Koller, F., Loeliger, A., Duckert, F. & Hu-Wang, H. (1952). Dtsch. med. Wschr. 77, 528.CrossRefGoogle Scholar
Kruse, I., Sørbye, Ø. & Dam, H. (1952). Congr. int. Biochim. II. Paris. Résumés des Communications, Pa 413.Google Scholar
Larsen, E. H. (1952). The Alterations of the Prothrombin Activity in the Newborn. Copenhagen: Ejnar Munksgaard.Google Scholar
Larsen, E. H. & Plum, P. (1941). Ugeskr. Lag. 103, 1273.Google Scholar
Lee, C. C., Trevoy, L. W., Spinks, J. W. T. & Jaques, L. B. (1950). Proc. Soc.exp. Biol., N.Y., 74, 151.CrossRefGoogle Scholar
Light, R. F., Alscher, R. P. & Frey, C. N. (1944). Science, 100,225.CrossRefGoogle Scholar
Mann, J. D., Mann, F. D., Bollanm, J. L. & Van Hook, E. (1949). Amer.J. Physiol. 158, 311.CrossRefGoogle Scholar
Mann, F. D., Mann, J. D., Bollman, J. L. & Van Hook, E. (1950). J. Lab. clin. Med. 36, 234.Google Scholar
Marx, R. & Dyckerhoff, H. (1943). Klin. Wschr. 22, 570.CrossRefGoogle Scholar
Montigel, C. & Pulver, R. (1952). Congr. int. Biochim. II. Paris. Résumés des Communications, p. 220.Google Scholar
Moore, T. & Wang, Y. L. (1945). Biochem. J. 39, 222.CrossRefGoogle Scholar
Owren, P. A. (1949). Scand. J. clin. Lab. Invest. I, 131.CrossRefGoogle Scholar
Owren, P. A. (1951 a).Rev. Hémat. 6, 135.Google Scholar
Owren, P. A. (1951 b). Scand.J. clin. Lab. Invest. 3, 168.CrossRefGoogle Scholar
Owren, P. A. & Aas, K. (1951). Scand. J. clin. Lab. Invest. 3, 201.CrossRefGoogle Scholar
Owren, P. A. & Bjerkelund, C. (1949). Scand. J. clin. Lab. Invest. I, 162.CrossRefGoogle Scholar
Plum, P. (1949) Acta Paediat., Stockh., 38, 526.Google Scholar
Quick, A. J. & Collentine, G. E. (1950). J. Lab. clin. Invest. 36, 976.Google Scholar
Quick, A. J. & Collectine, G. E. (1951). Amer. Physiol. 164, 716.CrossRefGoogle Scholar
Quick, A. J. & Stefanini, M. (1948). J. biol. Chem. 175, 945.CrossRefGoogle Scholar
Rodahl, K. (1949). Nature, Lond., 164, 531.CrossRefGoogle Scholar
Rodahl, K. (1950). Skr. norsk. Polarinst. no. 95.Google Scholar
Rodahl, K. & Moore, T. (1943). Biochem. J. 37, 166.CrossRefGoogle Scholar
Sanford, H. N., Kosalik, M. & Blackmore, B. (1949). Amer. J. Dis. Child. 78, 686.Google Scholar
Smith, C. C., Fradkin, R. & Lackey, M. D. (1946). Proc. Soc. exp. Biol., N.Y., 61, 398.CrossRefGoogle Scholar
Smith, H. P., Warner, E. D. & Brinkhous, K. M. (1937). J. exp. Med. 66, 801.CrossRefGoogle Scholar
Snelling, C. E. & Nelson, W. (1943). J. Pediat. 22, 77.CrossRefGoogle Scholar
Solvonuk, P. F., Jaques, L. B., Leddy, J. E. Trevoy, L. W. & Spinks, J. W. T. (1952). Proc. Soc. exp. Biol., N.Y., 79, 597.CrossRefGoogle Scholar
Søndergaard, E. & Dam, H. Acta. phavmacol. tox., Kbh. (To be published.)Google Scholar
Sørbye, Ø., Kruse, I. & Dam, H. (1950 a).Acta chem. scand. 4, 549.CrossRefGoogle Scholar
Sørbye, Ø., Kruse, I. & Dam, H. (1950 b). Acta chem. scand. 4, 831.CrossRefGoogle Scholar
Sørbye, Ø., Kruse, I. & Dam, H. (1951). Acta chem. scand. 5, 487.CrossRefGoogle Scholar
Sørbye, Ø., Kruse, I. & Dam, H. (1952). Congr. int. Biochim. II.Paris. Résumés des Communications, P. 417.Google Scholar
Spinks, J. W. T. & Jaques, L. B. (1950). Nature, Lond., 166, 184.CrossRefGoogle Scholar
Waddell, W. W. Jr. & Lawson, G. M. (1940). J. Amer. med. Ass. 115, 1416.CrossRefGoogle Scholar
Walker, S. E., Eylenburg, E. & Moore, T. (1947). Biochem. J. 41, 575.CrossRefGoogle Scholar
Ware, A. G., Guest, N. N. & Seegers, W. H. (1947). J. biol. Chem. 169, 231.CrossRefGoogle Scholar
Watkin, D. M., Van Itallie, T. B., Logan, W. B., Geyer, R. P., Davidson, C. S. & Stare, F. J. (1951). J. Lab. clin. Med. 37, 269.Google Scholar