The location of carbohydrases in the digestive tract of the pig.
TLDR
Aldridge, W. H. & Potter, V. R. (1958).Abstract:
Aldridge, W. N. (1957). Biochem. J. 67, 423. Clouet, D. H. & Richter, D. (1959). J. Neurochem. 3, 219. Davison, A. N. & Dobbing, J. (1959). Biochem. J. 73, 701. Davison, A. N. & Dobbing, J. (1960a). Biochem. J. 75,565. Davison, A. N. & Dobbing, J. (1960b). Biochem. J. 75,571. Davison, A. N., Dobbing, J., Morgan, R. S. & Payling Wright, G. (1959). Lancet, i, 658. Davison, A. N., Morgan, R. S., Wajda, M. & Payling Wright, G. (1959). J. Neurochem. 4, 360. Davison, A. N. & Wajda, M. (1959). J. Neurochem. 4, 353. Dreyfus, J. C., Kruh, J. & Schapira, G. (1960). Biochem. J. 75, 574. Finean, J. B., Hawthorne, J. N. & Patterson, J. D. E. (1957). J. Neurochem. 1, 256. Finean, J. B. & Robertson, J. D. (1958). Brit. med. Bull. 14, 267. Folch, J. & Lees, M. (1951). J. biol. Chem. 191, 807. Folch, J., Lees, M. & Carr, S. (1958). Exp. Cell Res. (Suppl.), 5, 58. Folch, J., Lees, M. & Sloane-Stanley, G. H. (1957). J. biol. Chem. 226, 497. Furst, S., Lajtha, A. & Waelsch, H. (1958). J. Neurochem. 2, 216. Gaitonde, M. K. & Richter, D. (1956). Proc. Roy. Soc. B, 145, 83. Greenberg, D. M. & Winnick, T. (1948). J. biol. Chem. 173, 199. Hecht, L. I. & Potter, V. R. (1958). Cancer Re8. 18, 186. Henriques, 0. B., Henriques, S. B. & Neuberger, A. (1955). Biochem. J. 60, 409. Koenig, H. (1959). J. Neurochem. 4, 93. Kravchinsky, E. M. & Sfilch, T. P. (1957). Ukr. biochem. J. 29, 25. Lajtha, A. (1959). J. Neurochem. 3, 358. Lajtha, A., Ber, S. & Waelsoh, H. (1959). J. Neurochem. 3, 322. Lajtha, A., Furst, S., Gerstein, A. & Waelsch, H. (1957). J. Neurochem. 1, 289. LeBaron, F. N. & Folch, J. (1956). J. Neurochem. 1, 101. Levy, A. L. & Chung, D. (1953). Analyt. Chem. 25, 396. Lowry, 0. H., Gilligan, D. R. & Katersky, E. M. (1941). J. biol. Chem. 139, 795. Muir, H. M., Neuberger, A. & Perrone, J. C. (1952). Biochem. J. 52, 87. Neuberger, A. (1955). Symp. Soc. exp. Biol. 9, 72. Neuberger, A., Perrone, J. C. & Slack, H. G. B. (1951). Biochem. J. 49, 199. Neuberger, A. & Slack, H. G. B. (1953). Biochem. J. 53, 47. Neuman, R. E. & Logan, M. A. (1950). J. biol. Chem. 184, 299. Robinson, H. W. & Hogden, C. G. (1940). J. biol. Chem. 135, 709. Schoenheimer, R. (1946). The Dynamic State of Body Constituents. Cambridge, Mass.: Harvard University Press. Shemin, D. & Rittenberg, D. (1946). J. biol. Chem. 166, 627. Sprinson, D. B. & Rittenberg, D. (1949). J. biol. Chem. 180,715. Stitch, S. R. (1959). Biochem. J. 73, 287. Thompson, R. C. & Ballou, J. E. (1954). J. biol. Chem. 208, 883. Thompson, R. C. & Ballou, J. E. (1956). J. biol. Chem. 223, 795. Uzman, L. L. (1958). Arch. Biochem. Biophys. 76, 474. Uzman, L. L. & Rosen, H. (1958). Arch. Biochem. Biophys. 76, 490. Vladimirov, G. E. & Urinson, A. P. (1957). Biokhimiya, 22, 665.read more
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