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  • Title: Protonophore anion permeability of the human red cell membrane determined in the presence of valinomycin.
    Author: Bennekou P.
    Journal: J Membr Biol; 1988 Jun; 102(3):225-34. PubMed ID: 3172181.
    Abstract:
    A transport model for translocation of the protonophore CCCP across the red cell membrane has been established and cellular CCCP binding parameters have been determined. The time course of the CCCP redistribution across the red cell membrane, following a jump in membrane potential induced by valinomycin addition, has been characterized by fitting values of preequilibrium extracellular pH vs. time to the transport model. It is demonstrated, that even in the presence of valinomycin, the CCCP-anion is "well behaved," in that the translocation can be described by simple electrodiffusion. The translocation kinetics conform to an Eyring transport model, with a single activation energy barrier, contrary to translocation across lipid bilayers, that is reported to follow a transport model with a plateau in the activation energy barrier. The CCCP anion permeability across the red cell membrane has been calculated to be close to 2.0 X 10(-4) cm/sec at 37 degrees C with small variations between donors. Thus the permeability of CCCP in the human red cell membrane deviates from that found in black lipid membranes, in which the permeability is found to be a factor of 10 higher.
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