Neuroscience
Withdrawal Reflex
100%
Sensory Neuron
74%
Synapse
62%
Motor Neuron
62%
Serotonin
45%
Long-Term Memory
43%
Habituation
41%
Mitogen-Activated Protein Kinase
33%
Synaptic Plasticity
30%
Ganglion
29%
Behavior (Neuroscience)
24%
Classical Conditioning
23%
Serotonergic
22%
Excitatory Postsynaptic Potential
19%
Protein Biosynthesis
16%
Interneuron
16%
Post Tetanic Potentiation
15%
Central Nervous System
14%
Neural Circuit
14%
Growth Factor
13%
Synaptic Transmission
13%
Kinase
12%
Excitability
12%
Nervous System
11%
Intermediate-Term Memory
11%
Ontogeny
10%
Locomotion
10%
Neurotrophic Factor
10%
Protein Kinase A
9%
Epileptic Absence
9%
Memory Consolidation
8%
Reflex
8%
Operant Conditioning
7%
Somatics
7%
Tyrosine Kinase
7%
Serotonin Release
6%
Spreading Cortical Depression
6%
Cysteine
6%
Afferent Nerve Fiber
6%
Long-Term Potentiation
5%
Cyproheptadine
5%
Ink
5%
Soma
5%
Behavioral Modification
5%
Neurotransmitter
5%
Recurrent Inhibition
5%
Feeding Behavior
5%
Protein Kinase C
5%
Monosynaptic Reflex
5%
Receptive Field
5%
Keyphrases
Aplysia
64%
Sensory Neurons
27%
Synaptic Facilitation
22%
Aplysia Californica
21%
Serotonin
18%
Motor Neuron
16%
Long-term Facilitation
13%
Classical Conditioning
11%
Withdrawal Reflex
11%
Long-term Memory
10%
Activity-dependent
10%
5-hydroxytryptamine
9%
Cell Analysis
8%
Intermediate Memory
8%
Synapse
8%
Growth Factor Signaling
7%
Synaptic Plasticity
7%
Memory Formation
7%
Cellular Mechanisms
7%
Shock
7%
Behavior Analysis
6%
Dissociation
6%
Dishabituation
6%
Mitogen-activated Protein Kinase
6%
Operant Conditioning
6%
Molecular Analysis
6%
Neuronal Synapses
6%
Synaptic
6%
Behavioral Level
6%
Non-associative Learning
6%
Modulatory Effects
5%
Conditioned Stimulus
5%
Excitatory Postsynaptic Potential
5%
Central Nervous System
5%
Cellular Level
5%