Intro | Unipolar Neuron | Bipolar Neuron | Multipolar Neuron | Multipolar Interneuron
Part 1: Image-Mapped Tutorial
Part 2: Matching Self-Test
Part 3: Multiple-Choice Self-Test
Although all neurons contain the elements described in Tutorials 1 and 2, they can be classified according to the placement of the cell body relative to other portions of the neuron. The primary classification scheme is based on the number of branches that originate from the cell body. In this way, neurons are placed in one of three categories: unipolar (one branch), bipolar (two branches), or multipolar (multiple branches). Another way of distinguishing neurons is by overall shape, as affected significantly by the number and length of its branching dendrites and the length of its axon. The pattern of branching from the cell body affects the function of a neuron. These distinguishing characteristics of neurons are the topics of discussion in Tutorial 3.
| Suggestions for further study |
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Halloway, M. (1992, January). Under construction. Temporary scaffolding guides nerves in the developing brain. Scientific American, 266(1), 25-26.
Hubel, D.H. (1979, September). The brain. Scientific American, 241(3), 44-53.
Kandel, E.R. (1979, September). Small systems of neurons. Scientific American, 241(3), 66-76.
Nauta, W.J. & Feirtag, M. (1979, September). The organization of the brain. Scientific American, 241(3), 88-111.
Schwartz, J.H. (1980, April). The transport of substances in nerve cells. Scientific American, 242(4), 152-71.
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Stent, G.S. (1972, September). Cellular communication. Scientific American, 227(3), 43-51.
Stevens, C.F. (1979, September). The neuron. Scientific American, 241(3), 54-65.
Tank, D.W., Hopfield, J.J. (1987, December). Collective computation in neuronlike circuits. Scientific American, 257(6), 104-114.
Wessels, N.K. (1971, October). How living cells change shape. Scientific American, 255(4), 77-82.
http://www.ultrapath.org/
(Society for Ultrastructural Pathology)
On-line Electron Microscopy.
https://www.journals.elsevier.com/molecular-and-cellular-neuroscience/
(Molecular and Cellular Neuroscience)
Search this journal's extensive database.
http://faculty.washington.edu/chudler/resources.html
(Internet Neuroscience Resources)
List of links maintained by E.H. Chudler, University of Washington.