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Literature DB >> 6974583

The timing of channel opening during miniature end-plate currents.

Abstract

Many chemical transmitters act by opening channels with exponentially distributed life-times. We present a way to analyze a synaptic current in terms of its component channels. We can estimate the numbers and times of channel opening within the synaptic current. This approach is used to study miniature end-plate currents (m.e.p.c.s) at the frog neuromuscular junction. The results support the idea that some transmitter rebinds after dissociation from post-synaptic receptors, and suggest that the time of channel closing is related to the time at which acetylcholine leaves the receptor.

Entities: Chemical

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Year: 1981 PMID： 6974583 DOI： 10.1016/0006-8993(81)90821-0

Source DB: PubMed Journal: Brain Res ISSN： 0006-8993 Impact factor: 3.252

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Cited

13 in total

6. End-plate potentials in a model muscle fiber. Corrections for the effects of membrane potential on currents and on channel lifetimes.

Authors: W Van der Kloot; I S Cohen
Journal: Biophys J Date: 1984-05 Impact factor: 4.033

7. Increasing quantal size at the mouse neuromuscular junction and the role of choline.

Authors: S P Yu; W Van der Kloot
Journal: J Physiol Date: 1991-02 Impact factor: 5.182

8. The timing of channel opening during miniature endplate currents at the frog and mouse neuromuscular junctions: effects of fasciculin-2, other anti-cholinesterases and vesamicol.

Authors: W Van der Kloot; O P Balezina; J Molgó; L A Naves
Journal: Pflugers Arch Date: 1994-09 Impact factor: 3.657

9. The kinetics of quantal releases during end-plate currents at the frog neuromuscular junction.

Authors: W Van der Kloot
Journal: J Physiol Date: 1988-08 Impact factor: 5.182

10. The rise times of miniature endplate currents suggest that acetylcholine may be released over a period of time.

Authors: W Van der Kloot
Journal: Biophys J Date: 1995-07 Impact factor: 4.033

The timing of channel opening during miniature end-plate currents.

1. Evaluation of the time course of neurotransmitter release from the measured PSC and MPSC.

2. Accounting for the shapes and size distributions of miniature endplate currents.

3. Estimating the timing of quantal releases during end-plate currents at the frog neuromuscular junction.

4. Combining deconvolution and noise analysis for the estimation of transmitter release rates at the calyx of held.

5. Modelling endplate currents: dependence on quantum secretion probability and decay of miniature current.

6. End-plate potentials in a model muscle fiber. Corrections for the effects of membrane potential on currents and on channel lifetimes.

7. Increasing quantal size at the mouse neuromuscular junction and the role of choline.

8. The timing of channel opening during miniature endplate currents at the frog and mouse neuromuscular junctions: effects of fasciculin-2, other anti-cholinesterases and vesamicol.

9. The kinetics of quantal releases during end-plate currents at the frog neuromuscular junction.

10. The rise times of miniature endplate currents suggest that acetylcholine may be released over a period of time.