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Axoplasm has a different composition of organelles and other materials than that found in the neuron's cell body or dendrites. For example, axons lack ribosomes and thus rely on axoplasmic transport to bring proteins to areas where they are needed. In axoplasmic transport, materials are carried through the axoplasm to or from the soma.
The electrical resistance of the axoplasm, called axoplasmic resistance, is one aspect of a neuron's cable properties, because it affects the rate of travel of an action potential down an axon. If the axoplasm contains many molecules that are not electrically conductive, it will slow the travel of the potential because it will cause more ions to flow across the axolemma (the axon's membrane) than through the axoplasm.
Reference[edit | edit source]
- Sabry J., O’Connor T. P., and Kirschner M. W. (1995). Axonal Transport of Tubulin in Ti1 Pioneer Neurons in Situ. Neuron. 14: 1247-1256.
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