Time Constants and Electrotonic Length of Membrane Cylinders and Neurons

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Time Constants and Electrotonic Length of Membrane Cylinders and Neurons

Wilfrid Rall

ABSTRACT

A theoretical basis is provided for the estimation of the electrotoniclength of a membrane cylinder, or the effective electrotoniclength of a whole neuron, from electrophysiological experiments.It depends upon the several time constants present in passivedecay of membrane potential from an initially nonuniform distributionover the length. In addition to the well known passive membranetime constant, ${tau}$ _m = R_mC_m, observed in the decay of a uniformmembrane potential, there exist many smaller time constantsthat govern rapid equalization of membrane potential over thelength. These time constants are present also in the transientresponse to a current step applied across the membrane at onelocation, such as the neuron soma. Similar time constants arederived when a lumped soma is coupled to one or more cylindersrepresenting one or more dendritic trees. Different time constantsare derived when a voltage clamp is applied at one location;the effects of both leaky and short-circuited termination arealso derived. All of these time constants are demonstrated asconsequences of mathematical boundary value problems. Theseresults not only provide a basis for estimating electrotoniclength, L = [unk]/ ${lambda}$ , but also provide a new basis for estimatingthe steady-state ratio, ${rho}$ , of cylinder input conductance to somamembrane conductance.

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