A lot of the important functions of neurons (and glia) happen at their cell membranes. In the case of neurons, in addition to the membrane around the cell body (the soma), we also need to understand what happens along the neuronal processes (aka neurites): the dendrites (inputs) and the neuron's axon (the output).
Let's begin this section by reviewing the structure of the cell membrane.
Transport across the cell membrane was introduce above. There are different mechanisms of membrane transport, each establishing certain behaviors of a cell.
The sodium-potassium pump is one of the most important membrane transport mechanisms for neural signaling. Let's take a closer look.
The cell's resting membrane potential was mentioned in the last two videos. The resting potential is an important starting point for understanding neuronal signaling via action potentials. For the last part of this post, we will look in more detail at the origins of the electrical potentials and electrostatic gradients across a cell membrane at rest.
In the next post we can start to look at cell signaling. Specifically, we are most interested in a neuron's action potential, which is the main way neurons communicate with each other.
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