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Synaptic organization of expansion motoneurons ofNavanax inermis
M. E. Spira
*
, D. C. Spray
, M. V.L. Bennett
*
Corresponding author for this work
Research output
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Article
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peer-review
39
Scopus citations
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Keyphrases
Action Potential
10%
Axon
10%
Buccal Ganglion
20%
Coupled Cells
10%
Depolarization
20%
Electrical Stimulation
10%
Equivalent Circuit
10%
Esophagus
10%
Excitatory Input
10%
G-cells
40%
High Threshold
10%
Identified Neurons
10%
Inhibitory Synapse
10%
Low Threshold
10%
Mechanical Stimulation
10%
Mechanoreceptors
10%
Motoneuron
100%
Musculature
10%
Nerve Stimulation
10%
Opisthobranch Molluscs
10%
Pharyngeal Wall
30%
Primary Sensory Neurons
10%
Protractor
10%
Soma
10%
Subthreshold
20%
Sucking
10%
Synaptic Input
10%
Synaptic Organization
100%
Tactile Stimulation
10%
Twitch
10%
Neuroscience
Action Potential
25%
Axon
25%
Electromyography
25%
Electrotherapy
25%
Excitatory Postsynaptic Potential
25%
G Cell
100%
Ganglion
50%
Inhibitory Postsynaptic Potential
25%
Mechanoreceptor
25%
Pharyngeal Nerve
25%
Postsynaptic Potential
75%
Sensory Neuron
25%
Synapse
25%
Medicine and Dentistry
Action Potential
10%
Axon
10%
Electrotherapy
10%
Esophagus
10%
Excitatory Postsynaptic Potential
10%
Ganglion
20%
Gastrin Cell
40%
Inhibitory Postsynaptic Potential
10%
Mechanical Stimulation
10%
Mechanoreceptor
10%
Mollusca
10%
Motoneuron
100%
Muscle Twitch
10%
Neurostimulation
10%
Postsynaptic Potential
30%
Prey
20%
Synapse
10%
Tactile Stimulation
10%