D. C. TOSTESON 153 



38. Harris, J. E. The inliuciice of mclabolism of human erythrocytes on their potassium 



content. J. Biol. Client. 141: S79-SQS, 1941. 

 3Q. Hastings, A. B., J. Sendroy, Jr., J. F. McIntosh and D. D. Van Slyke. Studies of 



gas and electrolyte equilibria in blood. XIII. The distribution of chloride and bicarbonate 



in the blood of normal and pathological human subjects. /. Biol. Cliem. LXXIX: 193- 



209, 1928. 



40. He.\ron, J. Z. Some cellular diffusion problems based on Onsager's generalization of 

 Kick's Law. Bull. Math. Biopliys. 12: 135-158, 1950. 



41. HiLLiER, J. .and J. F. Hoffman. On the ultrastructure of the plasma membrane as 

 tletermined by the electron microscope. /. Cell. & Comp. Physiol. 42: 203-247, 1953. 



42. HoDGKiN, A. L. and R. D. Keynes. Movements of cation during recovery in nerve. 

 Symp. Soc. Exper. Biol. VIII: 423-437, 1954. 



43. Hogben, C. a. M. Biological aspects of active chloride transport. Symposium on Electro- 

 lytes in Biological Systems. Washington: Am. Phj'siol. Soc, 1955. 



44. HoFFM.^N, J. F. AND D. C. TosTESON. A kinetic analysis of cation transport in human 

 red cells exposed to K-butyl alcohol. In preparation. 



45. Jacobs, M. H. The permeability of the erythrocyte. Ergeb. Biol. 7: 1-55, 1931. 



46. J.4COBS, M. H. Osmotic properties of the erythrocyte. The applicability of osmotic 

 laws to the rate of hemolysis in hypotonic solutions of non-electrolytes. Biol. Bull. 62: 

 178-194, 1932. 



47. J.^COBS, M. H., H. N. Glassman and A. K. Parpart. Osmotic properties of the erythro- 

 cytes. VII. The temperature coefficients of certain hemolytic processes. J . Cell. & Comp. 

 Physiol. 7: 197-225, 1935. 



48. Jacobs, M. H. and D. R. Stewart. Osmotic properties of erythrocyte: ionic and osmotic 

 equilibria with complex external solution. /. Cell. & Comp. Physiol. 30: 79-103, 1947. 



49. Jacobs, M. H. .^nd M. Willis. Preparation and properties of cation permeable erythro- 

 cytes. Biol. Bull. 93: 223-224, 1947. 



50. KOREY, S. R. Personal communication noted in Am. J. Physiol. 168: 658-668, 1952. 



51. LiNDViG, P. E., M. Grieg and S. W. Peterson. Studies on permeability. V. The effects 

 of acetyl choline and physostigmine on the permeability of human erythrocytes to sodium 

 and potassium. Arch. Biochem. 30: 241-250, 1951. 



52. Lohmann, K. and O. Meyerhof. Uber die enzymatische Umwandlung von Phosphogly- 

 cerinsaure in Brenztraubensaure und Phosphosaure. Biochem. Ztschr. 273: 60-72, 1934. 



53. Love, W. D. and G. E. Burch. A comparison of K^^, Rb*"^ and Cs"' as tracers of potas- 

 sium in the study of cation metabolism of human erythrocytes in vitro. J. Lab. & Clin. 

 Med. 41: 351-362, 1953. 



54. Love, W. D. and G. E. Burch. Chloride exchange between human erythrocytes and 

 plasma studied with CP*. Proc. Soc. Exper. Biol. & Med. 82: 131-133, 1953. 



55. Love, W. D., J. A. Cronvich and G. E. Burch. Mechanisms controlling cation concen- 

 trations in the human cell: Evidence from the effect of iodoacetate on Na and K ex- 

 change rates of the erythrocyte. /. Clin. Investigation XXXIV: 61-67, i955- 



56. Mackler, B. and G. M. Guest. Blood glycolysis: mechanisms inhibited by acidosis. 

 Am. J. Physiol. 175: 269-272, 1953. 



57. Maizels, M. Cation control in human erythrocytes. /. Physiol. 108: 247 263, 1949. 



58. Maizels, M. Factors in the active transport of cations. /. Physiol. 112: 59-83, 1951. 



59. Maizels, M. Cation transport in chicken erythrocytes. /. Physiol. 125: 263-277, 1954. 



60. Maizels, M. Active cation transport in erythrocytes. Symp. Soc. Exper. Biol. VIII: 202- 



227, 1954- 



61. Melchior, N. C. Sodium and potassium complexesof adenosine triphosphate: equilibrium 

 studies. /. Biol. Chem. 208: 615-629, 1954. 



