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Membrane Characteristics of Bursting Pacemaker Neurones in Aplysia

Nature New Biology volume 240pages 29–31 (1972)Cite this article

Abstract

The group of endogenously active molluscan neurones, classified as bursting or oscillatory pacemakers, regularly fire bursts of three to fifteen impulses separated by periods of silence associated with membrane hyperpolarizations (Fig. 1a). The abdominal ganglion of the marine mollusc Aplysia californica contains six bursting pacemakers, L2-L6 (L-group) and R151; these cells maintain their membrane potential oscillations in the absence of synaptic input2,3 and spike generation4. They also have K+-dependent inhibitory postsynaptic potentials (IPSPs) which last for some seconds after single or multiple discharges in the presynaptic neurones5–8. In the L-group these IPSPs are mixed with short-lasting Cl-dependent IPSPs. Although there is a different transmitter responsible for the generation of these IPSPs in R15 as opposed to those in the L-group, somewhat similar difficulties were encountered in attempts to determine the mechanism(s) underlying their generation, activation of an electrogenic Na+ pump having been initially implicated in both cases5,8. Just why their duration is prolonged remains uncertain, but the voltage clamp studies of Wachtel and Wilson9 on the L-group have again implicated a regenerative current source.

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Author notes

  1. DONALD S. FABER

    Present address: Department of Physiology, University of Cincinnati Medical Center, Cincinnati, Ohio, 45219

Authors and Affiliations

  1. Max-Planck-Institut für Hirnforschung, Neurobiol. Abt., 6, Frankfurt/M-Niederrad, Deutschordenstr.46

    DONALD S. FABER & MANFRED R. KLEE

Authors
  1. DONALD S. FABER
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  2. MANFRED R. KLEE
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FABER, D., KLEE, M. Membrane Characteristics of Bursting Pacemaker Neurones in Aplysia. Nature New Biology 240, 29–31 (1972). https://doi.org/10.1038/newbio240029a0

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