Activation-Dependent Subconductance Levels in the drk1 K Channel Suggest a Subunit Basis for Ion Permeation and Gating

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Activation-Dependent Subconductance Levels in the drk1 K Channel Suggest a Subunit Basis for Ion Permeation and Gating

Mark L. Chapman, Hendrika M. A. VanDongen and Antonius M. J. VanDongen

Department of Pharmacology, Duke University Medical Center, Durham, North Carolina 27710 USA

ABSTRACT

Ion permeation and channel opening are two fundamental propertiesof ion channels, the molecular bases of which are poorly understood.Channels can exist in two permeability states, open and closed.The relative amount of time a channel spends in the open conformationdepends on the state of activation. In voltage-gated ion channels,activation involves movement of a charged voltage sensor, whichis required for channel opening. Single-channel recordings ofdrk1 K channels expressed in Xenopus oocytes suggested thatintermediate current levels (sublevels) may be associated withtransitions between the closed and open states. Because K channelsare formed by four identical subunits, each contributing tothe lining of the pore, it was hypothesized that these sublevelsresulted from heteromeric pore conformations. A formal modelbased on this hypothesis predicted that sublevels should bemore frequently observed in partially activated channels, inwhich some but not all subunits have undergone voltage-dependentconformational changes required for channel opening. Experimentsusing the drk1 K channel, as well as drk1 channels with mutationsin the pore and in the voltage sensor, showed that the probabilityof visiting a sublevel correlated with voltage- and time-dependentchanges in activation. A subunit basis is proposed for channelopening and permeation in which these processes are coupled.

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				M. Pathak, L. Kurtz, F. Tombola, and E. Isacoff The Cooperative Voltage Sensor Motion that Gates a Potassium Channel J. Gen. Physiol., December 28, 2004; 125(1): 57 - 69. [Abstract] [Full Text] [PDF]

				C. A. Obejero-Paz, I. P. Gray, and S. W. Jones Y3+ Block Demonstrates an Intracellular Activation Gate for the {alpha}1G T-type Ca2+ Channel J. Gen. Physiol., November 29, 2004; 124(6): 631 - 640. [Abstract] [Full Text] [PDF]

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