Monte Carlo simulation of miniature endplate current generation in the vertebrate neuromuscular junction.

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Monte Carlo simulation of miniature endplate current generation in the vertebrate neuromuscular junction.

T M Bartol, Jr, B R Land, E E Salpeter and M M Salpeter

Section of Neurobiology and Behavior, Cornell University, Ithaca, New York 14853.

ABSTRACT

A Monte Carlo method for modeling the neuromuscular junctionis described in which the three-dimensional structure of thesynapse can be specified. Complexities can be introduced intothe acetylcholine kinetic model used with only a small increasein computing time. The Monte Carlo technique is shown to besuperior to differential equation modeling methods (althoughless accurate) if a three-dimensional representation of synapticgeometry is desired. The conceptual development of the modelis presented and the accuracy estimated. The consequences ofmanipulations such as varying the spacing of secondary synapticfolds or that between the release of multiple quantal packetsof acetylcholine, are also presented. Increasing the spacingbetween folds increases peak current. Decreased spacing of adjacentquantal release sites increases the potentiation of peak current.

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