在均匀的圆柱形神经突中，电压钳制模拟对空间钳制不佳的电压依赖性电导效果不佳。

Simulations of voltage clamping poorly space-clamped voltage-dependent conductances in a uniform cylindrical neurite.

作者信息

Hartline Daniel K, Castelfranco Ann M

机构信息

Békésy Laboratory of Neurobiology, Pacific Biomedical Research Center, University of Hawaii at Manoa, 1993 East-West Road, Honolulu, HI 96822, USA.

出版信息

J Comput Neurosci. 2003 May-Jun;14(3):253-69. doi: 10.1023/a:1023208926805.

DOI:10.1023/a:1023208926805

PMID:12766427

Abstract

Significant error is made by using a point voltage clamp to measure active ionic current properties in poorly space-clamped cells. This can even occur when there are no obvious signs of poor spatial control. We evaluated this error for experiments that employ an isochronal I(V) approach to analyzing clamp currents. Simulated voltage clamp experiments were run on a model neuron having a uniform distribution of a single voltage-gated inactivating ionic current channel along an elongate, but electrotonically compact, process. Isochronal Boltzmann I(V) and kinetic parameter values obtained by fitting the Hodgkin-Huxley equations to the clamp currents were compared with the values originally set in the model. Good fits were obtained for both inward and outward currents for moderate channel densities. Most parameter errors increased with conductance density. The activation rate parameters were more sensitive to poor space clamp than the I(V) parameters. Large errors can occur despite "normal"-looking clamp curves.

摘要

在空间钳制不佳的细胞中使用点电压钳来测量活性离子电流特性会产生显著误差。即使在没有明显空间控制不佳迹象的情况下，这种情况也可能发生。我们针对采用等时I(V)方法分析钳制电流的实验评估了这种误差。在一个模型神经元上进行了模拟电压钳实验，该模型神经元沿着一个细长但电紧张性紧密的过程具有单一电压门控失活离子电流通道的均匀分布。将通过将霍奇金-赫胥黎方程拟合到钳制电流而获得的等时玻尔兹曼I(V)和动力学参数值与模型中最初设定的值进行了比较。对于中等通道密度，内向和外向电流都获得了良好的拟合。大多数参数误差随电导密度增加。激活速率参数比I(V)参数对空间钳制不佳更敏感。尽管钳制曲线看起来“正常”，但仍可能出现大的误差。

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在均匀的圆柱形神经突中，电压钳制模拟对空间钳制不佳的电压依赖性电导效果不佳。

Simulations of voltage clamping poorly space-clamped voltage-dependent conductances in a uniform cylindrical neurite.

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