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Role for the Skeletal Muscle Action Potential in Non-Hebbian Long-Term Depression at the Amphibian (Bufo Marinus) Neuromuscular Junction
Sarah Etherington, Alan Everett
School of Molecular Sciences
Graduate Research School
Research output
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Contribution to journal
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Article
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peer-review
1
Citation (Scopus)
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Dive into the research topics of 'Role for the Skeletal Muscle Action Potential in Non-Hebbian Long-Term Depression at the Amphibian (Bufo Marinus) Neuromuscular Junction'. Together they form a unique fingerprint.
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Medicine and Dentistry
Action Potential
100%
Neuromuscular Junction
100%
Skeletal Muscle
66%
Nitric Oxide
66%
Long-Term Depression
66%
Stimulation
33%
Motoneuron
33%
Muscle Cell
33%
Skeletal Muscle Cell
33%
Synapse
33%
Motor Nerve
33%
Neurotransmitter Release
33%
Conotoxin
33%
Muscle Action Potential
33%
Voltage Gated Sodium Channel
33%
Neuromuscular Transmission
33%
Sartorius Muscle
33%
Antagonist
33%
Neuroscience
Action Potential
100%
Skeletal Muscle
75%
Neuromuscular
50%
Nitric Oxide
50%
Long-Term Depression
50%
Neurotransmitter Release
25%
Synapse
25%
Conotoxin
25%
Voltage Gated Sodium Channel
25%
Agricultural and Biological Sciences
Action Potential
100%
Immatures
25%
Muscle Fiber
25%
Synapse
25%
Bufo marinus
25%
Conotoxin
25%