论文信息 - Simulations of space-clamp errors in estimating parameters of voltage-gated conductances localized at different electrotonic distances

Simulations of space-clamp errors in estimating parameters of voltage-gated conductances localized at different electrotonic distances

Abstract The ability to correct parameters of voltage-gated conductances measured under poor spatial control by a point voltage clamp could rescue much flawed experimental data, but requires a detailed understanding of errors caused by poor space clamp. We evaluated errors in simulated voltage-clamp experiments on a soma with a single (0.5λ) cylindrical process having a patch of voltage-dependent Hodgkin–Huxley channels placed at various distances from the soma. Kinetic and steady-state parameters were obtained by fitting the current curves. Most parameter errors increased as the patch was located more distally on the neurite.

Ann M. Castelfranco | Daniel K. Hartline | D. Hartline | A. Castelfranco

[1] Michael L. Hines,et al. NEURON — A Program for Simulation of Nerve Equations , 1993 .

[2] A. Hodgkin,et al. A quantitative description of membrane current and its application to conduction and excitation in nerve , 1990 .

[3] Frank H. Eeckman,et al. Neural Systems: Analysis and Modeling , 2012, Springer US.