晶状体中的电流-电压关系。
Current-voltage relationships in the crystalline lens.
作者信息
Eisenberg R S, Rae J L
出版信息
J Physiol. 1976 Nov;262(2):285-300. doi: 10.1113/jphysiol.1976.sp011596.
Abstract
- Electrical coupling between the cells of the crystalline lens of the frog eye was studied using two intralenticular micro-electrodes, one to pass current and one to record potential. In most experiments, both electrodes were placed just inside the posterior surface of the lens at a depth of approximately 200 mum from the surface. Step functions of current were applied and the time course of the resulting change in voltage was measured at many different electrode separations. 2. The voltage change has both a fast component, which occurs only locally in the region close to the current passing micro-electrode, and a slow component, which is spatially uniform, independent of distance from the current micro-electrode. 3. This behaviour is predicted by an electrical model of a single large spherical cell, and so that model can be used to analyse our data. 4. The resistivity of the lens 'interior' (both cytoplasm and coupling resistivity) is 625 omega cm; the resistance of the lens 'membrane' is 2751 omega cm2. 5. The data and analysis help to reconcile discrepancies between previous measurements of the electrical properties of the lens and show clearly that there is substantial electrical coupling from cell to cell. The method should allow investigation of the role of electrical coupling in cataract formation in the crystalline lens.
摘要
- 使用两个晶状体微电极研究了蛙眼晶状体细胞之间的电耦合,一个用于通电流,另一个用于记录电位。在大多数实验中,两个电极都置于晶状体后表面内侧,距表面深度约200微米处。施加电流阶跃函数,并在许多不同的电极间距下测量由此产生的电压变化的时间进程。2. 电压变化有一个快速成分,仅在靠近通电流微电极的区域局部出现,还有一个缓慢成分,在空间上是均匀的,与距电流微电极的距离无关。3. 这种行为由单个大球形细胞的电模型预测,因此该模型可用于分析我们的数据。4. 晶状体“内部”(细胞质和耦合电阻)的电阻率为625Ω·cm;晶状体“膜”的电阻为2751Ω·cm²。5. 这些数据和分析有助于调和先前对晶状体电特性测量之间的差异,并清楚地表明细胞之间存在大量电耦合。该方法应有助于研究电耦合在晶状体白内障形成中的作用。
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