Kinetic states and modes of single large-conductance calcium-activated potassium channels in cultured rat skeletal muscle.

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Kinetic states and modes of single large-conductance calcium-activated potassium channels in cultured rat skeletal muscle.

O B McManus and K L Magleby

Department of Physiology and Biophysics, University of Miami School of Medicine, FL 33101.

1. Kinetic states and modes of a large-conductance Ca2+-activatedK+ channel in excised patches of membrane from cultured ratskeletal muscle were studied with the patch clamp technique.Up to 10(6) open and shut intervals were analysed from eachof seven different excised membrane patches containing a singlechannel. 2. Plots of the mean durations of consecutive groupsof ten to fifty open and shut intervals were made to assesskinetic stability of the channel. Occasional abrupt decreasesin the mean open interval duration from normal to differentdistinct levels, which were maintained for hundreds to thousandsof consecutive intervals, indicated entry of the channel intodifferent modes. 3. Four different kinetic modes were identified:normal mode, which included 96% of the intervals; intermediateopen mode with 3.2% of the intervals; brief open mode with 0.5%of the intervals; and buzz mode with 0.1% of the intervals.The mean open interval durations were 61% of normal during theintermediate open mode, 12% of normal during the brief openmode, and 2.6% of normal during the buzz mode. 4. Most modetransitions were observed from the normal mode to one of theother modes and then back to normal. Sojourns in the normalmode lasted 5-1000 s. Sojourns in the intermediate open, briefopen, and buzz modes lasted 1.5-150, 1-7, and 0.01-1 s, respectively.5. During normal activity the distributions of interval durationswere typically described by the sum of three to four exponentialcomponents for the open intervals and six to eight exponentialcomponents for the shut intervals, and this was the case fordata obtained over a wide range of open channel probabilityresulting from different Ca2+i. These observations suggest thatthe channel can enter at least three to four open and six toeight shut states during normal activity. 6. The numbers ofdetected states for data sets of different sample sizes drawnfrom normal activity agreed with theoretical predictions, andwere essentially independent of the segment of normal activityfrom which the data sets were drawn. These observations areconsistent with relative stability of channel kinetics duringnormal activity. Detection of each additional open or shut stateafter the first was found to require a 3- to 10-fold increasein the number of analysed events. 7. The intermediate open modediffered from the normal mode in that the longest open componentof the four normal open components was absent.

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				L. Movileanu, S. Cheley, and H. Bayley Partitioning of Individual Flexible Polymers into a Nanoscopic Protein Pore Biophys. J., August 1, 2003; 85(2): 897 - 910. [Abstract] [Full Text] [PDF]

				K. L. Magleby Gating Mechanism of BK (Slo1) Channels: So Near, Yet So Far J. Gen. Physiol., February 3, 2003; 121(2): 81 - 96. [Full Text] [PDF]

				X. Qian, C. M. Nimigean, X. Niu, B. L. Moss, and K. L. Magleby Slo1 Tail Domains, but Not the Ca2+ Bowl, Are Required for the {beta}1 Subunit to Increase the Apparent Ca2+ Sensitivity of BK Channels J. Gen. Physiol., November 25, 2002; 120(6): 829 - 843. [Abstract] [Full Text] [PDF]

				F. T. Horrigan and R. W. Aldrich Coupling between Voltage Sensor Activation, Ca2+ Binding and Channel Opening in Large Conductance (BK) Potassium Channels J. Gen. Physiol., August 26, 2002; 120(3): 267 - 305. [Abstract] [Full Text] [PDF]

				C. J. Lingle Setting the Stage for Molecular Dissection of the Regulatory Components of BK Channels J. Gen. Physiol., August 26, 2002; 120(3): 261 - 265. [Full Text] [PDF]

				H. M. Colecraft, D. L. Brody, and D. T. Yue G-Protein Inhibition of N- and P/Q-Type Calcium Channels: Distinctive Elementary Mechanisms and Their Functional Impact J. Neurosci., February 15, 2001; 21(4): 1137 - 1147. [Abstract] [Full Text] [PDF]

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				D. D. Denson, X. Wang, R. T. Worrell, and D. C. Eaton Effects of fatty acids on BK channels in GH3 cells Am J Physiol Cell Physiol, October 1, 2000; 279(4): C1211 - C1219. [Abstract] [Full Text] [PDF]

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