154 ELECTROLYTES IN BIOLOGICAL SYSTEMS 



62. MicHAELis, L. AND M. L. Menton. Die Kinetik der Invertinwirkung. Biochem. Ztschr. 



49: 333-369, 1913- 



63. MiTCHisON, J. M. A polarized light analysis of the human red cell ghost. /. Exper. Biol. 

 30: 397-432, 1953- 



64. MosKOWiTZ, M. AND M. Calvin. On the components and structure of the human red 

 cell membrane. Exper. Cell Research III: 33-46, 1952. 



65. Mueller, C. B. and A. B. Hastings. Glycolysis and phosphate fractions of red blood 

 cells. J. Biol. Chem. 189: 881-888, 1951. 



66. Mueller, C. B. and A. B. Hastings. The rate of transfer of phosphate across the cell 

 membrane. J. Biol. Chem. 189: 869-879, 195 1. 



67. Neihof, R. The preparation and properties of strong acid type collodion-base mem- 

 branes. /. Phys. Chem. 58: 916-925, 1954. 



68. Onsager, L. Reciprocal Relations in Irreversible Processes. I and II. Phys. Rev. 37: 

 405-426 and 38: 2265-2279, 1931. 



69. 0RSKOV, S. L. Untersuchungen iiber den Einfluss von Kohlensaure und Blei auf die 

 Permeabilitat der Blutkorperchen fiir Kalium und Rubidium. Biochem. Ztschr. 279: 

 250-261, 1935. 



70. 0RSKOV, S. L. The potassium absorption by pigeon blood cells. Ada physiol. scandinav. 

 31: 221-229, 1954. 



71. OsTERHOUT, VV. J. V. The kinetics of penetration. IV. Diffusion against a growing po- 

 tential gradient in models. /. Gen. Physiol. 16: 157-163, 529-557, 1932. 



72. OsTERHOUT, W. J. V. Permeability in large plant cells and in models. Ergeb. Physiol. 

 35: 965-1021, 1933. 



73. OsTERHOUT, W. J. V. AND S. E. Kamerling. The accumulation of electrolytes. VII. 

 The accumulation of KCl in models. /. Gen. Physiol. 19: 167-178, 1935. 



74. Parlin, R. B. and H. Erying. Membrane permeability and electrical potential. In: 

 Ion Transport Across Membranes, edited by H. T. Clarke. New York: Acad. Press, 

 1954, pp. 103-118. 



75. Parpart, a. K. and R. Ballentine. Molecular anatomy of the red cell plasma mem- 

 brane. Modern Trends in Physiology and Biochemistry. New York: Acad. Press, 1952, 

 pp. 135-148. 



76. Parpart, A. K., J. R. Gregg, P. B. Lorenz, E. R. Parpart and A. M. Chase. Whole 

 blood preservation: A problem in general physiology. An in vitro analysis of the problem 

 of blood storage. J. Clin. Investigation XXVI: 641-654, 1947. 



77. Parpart, A. K. and J. F. Hoffman. Acidity vs. acetyl choline and cation permeability 

 of red cells. Federation Proc. 11: 117, 1952. 



78. Parpart, A. K. and J. F. Hoffman. Ion permeability of the red cell. In: Ion Transport 

 Across Membranes, edited by H. T. Clarke. New York: Acad. Press, 1954, pp. 69-74. 



79. PoLissAR, M. J. Diffusion through membranes and transmembrane potentials. The 

 Kinetic Basis of Molecular Biology. H. Johnson, H. Eyring and M. J. Polissar: New 

 York: Wiley, 1955, pp. 515-603. 



80. Ponder, E. The prolytic loss of K from human red cells. /. Gen. Physiol. 30: 235-246, 



1947- 



81. Ponder, E. Prolytic ion exchanges produced in human red cells by methanol, ethanol, 

 guaiacol, and resorcinol. /. Gen. Physiol. 30: 479-491, 1947. 



82. Ponder, E. K-Na exchange accompanying the prolytic loss of K from human red cells. 

 /. Gen. Physiol. 30: 379-387, 1947. 



83. Ponder, E. The permeability of human red cells to cations after treatment with res- 

 orcinol, M-butyl alcohol and similar lysins. /. Gen. Physiol. 32: 53-62, 1948. 



84. Ponder, E. Hemolysis and Related Phenomena. New York: Grune & Stratton, 1948. 



