Presynaptic currents in frog motor endings
- 1 January 1984
- journal article
- research article
- Published by Springer Nature in Pflügers Archiv - European Journal of Physiology
- Vol. 400 (1) , 8-13
- https://doi.org/10.1007/bf00670529
Abstract
Membrane currents were recorded from nonmyelinated frog endings by external electrodes. Changes in shape of the signals recorded at varying distances from the myelin end could be explained by assuming a non uniform distribution of Na and K channels along the presynaptic terminal. Specific channel blocking agents revealed that Na channels are present in highest density in the first half of each terminal branch and at almost undetectable levels near the extreme end, while K channels show a more widespread distribution with higher density at medial parts. Suppression of K conductance revealed Ca current which was seen as outward current near the myelin end.Keywords
This publication has 23 references indexed in Scilit:
- The antagonism between botulinum toxin and calcium in motor nerve terminalsProceedings of the Royal Society of London. B. Biological Sciences, 1982
- Transmitter release by graded local depolarization of presynaptic nerve terminals at the crayfish neuromuscular junctionNeuroscience Letters, 1982
- Size-dependent variation of nodal properties in myelinated nerveNature, 1981
- Direct evidence for a presynaptic action of glutamate at a crayfish neuromuscular junctionBrain Research, 1978
- 3,4-diaminopyridine. A potent new potassium channel blockerBiophysical Journal, 1978
- The mode of action of 4-aminopyridine and guanidine on transmitter release from motor nerve terminalsEuropean Journal of Pharmacology, 1977
- Organization and synaptic physiology of crustacean neuromuscular systemsProgress in Neurobiology, 1976
- Electrophysiology of the Peripheral Myelinated NervePublished by Springer Nature ,1976
- Potential changes recorded from the frog motor nerve terminal during its activationPflügers Archiv - European Journal of Physiology, 1966
- Propagation of electric activity in motor nerve terminalsProceedings of the Royal Society of London. B. Biological Sciences, 1965