Abstract.
Fresh-water plants generate extraordinarily high electric potential differences at the plasma membrane. For a deeper understanding of the underlying transport processes a mathematical model of the electrogenic plasmalemma ion transport was developed based on experimental data mainly obtained from Egeria densa. The model uses a general nonlinear network approach and assumes coupling of the transporters via membrane potential. A proton pump, an outward-rectifying K+ channel, an inward-rectifying K+ channel, a Cl− channel and a (2H-Cl)+ symporter are considered to be elements of the system. The model takes into consideration the effects of light, external pH and ionic content of the bath medium on ion transport. As a result it does not only satisfactorily describe the membrane potential as a function of these external physiological factors but also succeeds in simulating the effects of specific inhibitors as well as I-V-curves obtained with the patch-clamp technique in the whole cell mode. The quality of the model was checked by stability and sensitivity analyses.
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Received: 18 March 1996/Revised: 17 July 1996
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Buschmann, P., Sack, H., Köhler, A. et al. Modeling Plasmalemma Ion Transport of the Aquatic Plant Egeria densa . J. Membrane Biol. 154, 109–118 (1996). https://doi.org/10.1007/s002329900136
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DOI: https://doi.org/10.1007/s002329900136