References
Côté, R. H., and Morgan, W. T. J., Nature, 178, 1171 (1956).
Schiffman, G., Kabat, E. A., and Leskowitz, S., J. Amer. Chem. Soc., 82, 1122 (1960).
Cheese, I. A. F. L., and Morgan, W. T. J., Nature, 191, 149 (1961).
Schiffman, G., Kabat, E. A., and Leskowitz, S., J. Amer. Chem. Soc., 84, 73 (1962).
Painter, T. J., Watkins, W. M., and Morgan, W. T. J., Nature, 193, 1042 (1962).
Painter, T. J., Cheese, I. A. F. L., and Morgan, W. T. J., Chem. and Indust., 1535 (1962).
Painter, T. J., Watkins, W. M., and Morgan, W. T. J., Nature, 199, 282 (1963).
Painter, T. J., Rege, V. P., and Morgan, W. T. J., Nature, 199, 569 (1963).
Masamune, H., Sinohara, H., and Okuyama, T., Tohoku J. Exp. Med., 68, 165 (1958). Masamune, H., and Sinohara, H., ibid., 69, 59, 65 (1958).
Yosizawa, Z., Biochim. Biophys. Acta, 52, 588 (1961); J. Biochem. (Tokyo), 51, 1, 145 (1962).
Bacon, J. S. D., and Edelman, J., Biochem. J., 48, 114 (1951).
Kuhn, R., Baer, H. H., and Gauhe, A., Chem. Ber., 87, 1553 (1954).
Zilliken, F., Smith, P. N., Tomarelli, R. M., and György, P., Arch. Biochem. Biophys., 54, 398 (1955).
Watkins, W. M., Nature, 181, 117 (1958).
Aminoff, D., Morgan, W. T. J., and Watkins, W. M., Biochem. J., 51, 379 (1952).
Partridge, S. M., Biochem. J., 42, 238 (1948).
Peat, S., Whelan, W. J., and Roberts, J. G., J. Chem. Soc., 2258 (1956).
Rondle, C. J. M., and Morgan, W. T. J., Biochem. J., 61, 586 (1955).
Kuhn, R., Gauhe, A., and Baer, H. H., Chem. Ber., 87, 1138 (1954). Kuhn, R., and Krüger, G., ibid., 89, 1473 (1956).
Painter, T. J., Chem. and Indust., 1214 (1960).
Wallenfels, K., Naturwiss., 37, 491 (1950).
Feingold, D. S., Avigad, G., and Hestrin, S., Biochem. J., 64, 351 (1956).
Dubois, M., Gilles, K. A., Hamilton, J. K., Rebers, P. A., and Smith, F., Anal. Chem., 28, 350 (1956).
Hough, L., Woods, B. M., and Perry, M. B., Chem. and Indust., 1100 (1957).
Clancy, M. J., and Whelan, W. J., Chem. and Indust., 673 (1959).
Trevelyan, W. E., Procter, D. P., and Harrison, J. S., Nature, 166, 444 (1950).
Kuhn, R., and Baer, H. H., Chem. Ber., 89, 504 (1956).
Kuhn, R., and Gauhe, A., Chem. Ber., 95, 518 (1962).
Watkins, W. M., and Morgan, W. T. J., Vox Sang., 7, 129 (1962).
Uchida, T., Robbing, P. W., and Luria, S. E., Biochemistry, 2, 663 (1963).
Watkins, W. M., and Morgan, W. T. J., Nature, 178, 1289 (1956). Allen, P. Z., and Kabat, E. A., J. Immunol., 82, 358 (1959).
Morgan, W. T. J., Proc. Roy. Soc., B, 151, 308 (1960).
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REGE, V., PAINTER, T., WATKINS, W. et al. Three New Trisaccharides Obtained from Human Blood-Group A, B, H and Lea Substances: Possible Sugar Sequences in the Carbohydrate Chains. Nature 200, 532–534 (1963). https://doi.org/10.1038/200532a0
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DOI: https://doi.org/10.1038/200532a0
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