Abstract
We have identified the species of K + channel that underlies the neuronal M-current in rat sympathetic ganglion cells. The channels were kinetically and pharmacologically defined using outside-out and cell-attached patches. They exhibited multiple conductance levels, predominantly 3–9 pS. Their slow gating in response to voltage change in outside-out patches was exhibited only in the presence of AIF 4 − or GTPγS, on the inner membrane surface and when the lower conductance states were dominant. In the absence of AIF 4 − or GTPγS, the channels exhibited rapid activation and deactivation. We conclude that M-channel gating may be controlled by an associated GTP-binding protein.
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