Modeling the Effects of Intracellular Anions on Membrane Potential: An Active-Learning Exercise

Winnifred Bryant

doi:10.1525/abt.2019.81.5.373

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17 May 2019 Modeling the Effects of Intracellular Anions on Membrane Potential: An Active-Learning Exercise

Winnifred Bryant

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The American Biology Teacher, 81(5):373-376 (2019). https://doi.org/10.1525/abt.2019.81.5.373

Abstract

In biological membranes that are permeable to water and ions but impermeable to other solutes, the diffusible ions cannot reach a concentration equilibrium. Instead, a state of electroneutrality is achieved on each side of the membrane, which requires that the diffusible ions be found in different concentrations on either side of the membrane. The Donnan equilibrium is a major contributing factor to the polarized state of cells, and appreciating it is vital to the understanding of neuronal physiology. This article presents a nonmathematical active-learning exercise that will help AP and college biology students understand how the Donnan equilibrium is achieved.

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Winnifred Bryant "Modeling the Effects of Intracellular Anions on Membrane Potential: An Active-Learning Exercise," The American Biology Teacher 81(5), 373-376, (17 May 2019). https://doi.org/10.1525/abt.2019.81.5.373

Published: 17 May 2019

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