蝾螈视杆外段中单个环磷酸鸟苷激活通道的电导和动力学
Conductance and kinetics of single cGMP-activated channels in salamander rod outer segments.
作者信息
Taylor W R, Baylor D A
机构信息
Department of Neurobiology D-239, Stanford University School of Medicine, CA 94305, USA.
出版信息
J Physiol. 1995 Mar 15;483 ( Pt 3)(Pt 3):567-82. doi: 10.1113/jphysiol.1995.sp020607.
Abstract
- The conductance and kinetics of single 3',5'-cyclic guanosine monophosphate (cGMP)-activated channels of retinal rod outer segments were studied in inside-out membrane patches. The size of the single channel currents was increased by using low concentrations of divalent cations. 2. At saturating cGMP concentration, the current flickered at high frequency. Occasionally, the current was interrupted by closures lasting tens or hundreds of milliseconds. At +50 mV the maximum current during an opening was slightly more than 1 pA, but the open channel level was poorly resolved due to the speed of the gating transitions. 3. Amplitude histograms confirmed the presence of a sublevel of current, roughly a quarter the size of the peak current, at low cGMP concentrations. The fraction of time in the sublevel decreased with increasing cGMP concentration, suggesting that the sublevel may be due to opening by the partially liganded channel. 4. Consistent with previous macroscopic current recordings, single channel activation by cGMP had an apparent dissociation constant of 8.6 microM, and a Hill coefficient of 2.8. 5. At saturating cGMP concentrations, the channel was modelled as a two-state system with the following parameters. The open channel conductance was 25 pS. The opening rate constant, beta, was 1.5 x 10(4) s-1 at 0 mV, and had a voltage sensitivity equivalent to the movement of 0.23 electronic charges outward through the membrane electric field. The closing rate constant, alpha, was 2.1 x 10(4) s-1 and was voltage insensitive. Assuming that the open-state chord conductance was voltage independent, the inferred voltage dependence of beta largely accounted for the outward rectification in the steady-state macroscopic current-voltage relation of multichannel patches, at saturating cGMP concentration.
摘要
- 在反转的膜片上研究了视网膜视杆细胞外段单个3',5'-环磷酸鸟苷(cGMP)激活通道的电导和动力学。通过使用低浓度的二价阳离子,单通道电流的大小增加了。2. 在饱和cGMP浓度下,电流高频闪烁。偶尔,电流会被持续数十或数百毫秒的关闭中断。在+50 mV时,开放期间的最大电流略大于1 pA,但由于门控转换的速度,开放通道水平难以分辨。3. 幅度直方图证实,在低cGMP浓度下存在一个电流亚水平,其大小约为峰值电流的四分之一。亚水平的时间分数随cGMP浓度增加而降低,这表明亚水平可能是由于部分配体结合的通道开放所致。4. 与先前的宏观电流记录一致,cGMP对单通道的激活具有8.6 microM的表观解离常数和2.8的希尔系数。5. 在饱和cGMP浓度下,通道被建模为具有以下参数的双态系统。开放通道电导为25 pS。开放速率常数β在0 mV时为1.5×10⁴ s⁻¹,其电压敏感性相当于0.23个电子电荷通过膜电场向外移动。关闭速率常数α为2.1×10⁴ s⁻¹,且对电压不敏感。假设开放态弦电导与电压无关,在饱和cGMP浓度下,推断的β的电压依赖性在很大程度上解释了多通道膜片稳态宏观电流-电压关系中的外向整流。
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