Full-Wave Rectification from a Mixed Electrical-Chemical Synapse

Full-Wave Rectification from a Mixed Electrical-Chemical Synapse

Electrical and chemical synapses usually reinforce one another, but the pyloric late--to--lateral pyloric (PL-to-LP) neuronal connections in lobster stomatogastric ganglia create an inverted U-shaped transfer function between the two neurons: regardless of whether the PL membrane voltage swings posi...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1987-07, Vol.237 (4814), p.535-537
Hauptverfasser: Graubard, Katherine, Hartline, Daniel K.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biochemistry
Biological and medical sciences
Crustacea
Depolarization
Electric potential
Electrical couplings
Electrical rectification
Fundamental and applied biological sciences. Psychology
Ganglia
Ganglia - physiology
Homarus americanus
Input output
Invertebrates
Marine
Medical research
Membrane Potentials - drug effects
Nephropidae
Nervous system
Neural Inhibition
Neurons
Neurotransmitter Agents - physiology
Panulirus interruptus
Physiology. Development
Pylorus - innervation
Synapses
Synapses - drug effects
Synapses - physiology
Synaptic Transmission
Tetrodotoxin
Tetrodotoxin - pharmacology
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Beschreibung
Zusammenfassung:Electrical and chemical synapses usually reinforce one another, but the pyloric late--to--lateral pyloric (PL-to-LP) neuronal connections in lobster stomatogastric ganglia create an inverted U-shaped transfer function between the two neurons: regardless of whether the PL membrane voltage swings positive or negative, the postsynaptic LP voltage will go negative. When the presynaptic cell voltage goes negative, the effect on the LP voltage is due to electrical coupling. During positive presynaptic voltages, the strong contribution of graded chemical inhibition from the PL to the LP neuron overrides the positive electrical coupling to produce net negativity.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.2885921