Content area
Abstract
The action potential of the squid giant axon is formed by just two voltage-dependent conductances in the cell membrane, yet mammalian central neurons typically express more than a dozen different types of voltage-dependent ion channels. This rich repertoire of channels allows neurons to encode information by generating action potentials with a wide range of shapes, frequencies and patterns. Recent work offers an increasingly detailed understanding of how the expression of particular channel types underlies the remarkably diverse firing behaviour of various types of neurons.
Details
Title
The action potential in mammalian central neurons
Author
Bean, Bruce P
Pages
451-65
Publication year
2007
Publication date
Jun 2007
ISSN
1471003X
e-ISSN
14710048
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
225000165
Copyright
Copyright Nature Publishing Group Jun 2007