The bacterial K+ channel structure and its implications for neuronal channels
Publication information:
Yellen. 1999. “The Bacterial K+ Channel Structure and Its Implications for Neuronal Channels”. Curr Opin Neurobiol, 9, 3, Pp. 267-73. doi:10.1016/s0959-4388(99)80039-7
Abstract
Voltage-gated K+ (Kv) channels play a central role in generating action potentials and rhythmic patterns, as well as in dendritic signal processing in neurons. Recently, the first structure of a member of the K+ channel family was solved. Although this channel is from bacteria and has a streamlined body plan with no voltage gating, it establishes the architecture of the functional core of the voltage-gated (K+) channels and their relatives. This architecture explains the crucial features of ion permeation and blockade, and gives some strong hints about gating. The bacterial K+ channel structure is the central piece in a puzzle; it remains to be seen how it will fit together with other domains of the Kv channels, with auxiliary subunits, and with other signal transduction molecules.