Keyphrases
External Globus Pallidus
54%
Striatal
49%
Parkinson's Disease
42%
Basal Ganglia
38%
Globus Pallidus
35%
Npas1
35%
Pacemaking
32%
Parkinson's Disease Model
22%
Indirect Pathway
22%
Dopamine
21%
Striatal Projection Neurons
20%
Pallidal
19%
Medium Spiny Neurons
18%
Spiny Projection Neurons
18%
Motor Control
15%
Synaptic
15%
Neuron Types
15%
Subthalamic nucleus
14%
Direct Pathway
14%
Transgenic Mice
13%
Dopamine Neurons
13%
Spontaneous Excitatory Postsynaptic Current (sEPSC)
13%
Substantia Nigra
12%
Striatum
12%
D2 Dopamine Receptor
12%
Striatopallidal
11%
Huntington's Disease
11%
Channel Function
11%
Electrophysiological Effects
11%
Corticostriatal
10%
HCN Channels
10%
L-type Ca2+ Channel
10%
Na +
10%
Hippocampal Excitability
9%
Contextual Fear Memory
9%
Glutamatergic Neurotransmission
9%
TRPC3 Channels
9%
Type-specific
9%
Striatal Medium Spiny Neurons
9%
Behavioral Effects
9%
Substantia Nigra Pars Compacta
9%
Basal Ganglia Circuits
9%
Pacemaker
8%
Parvalbumin Neurons
8%
Antipsychotics
8%
Hyperpolarization-activated Cyclic nucleotide-gated Channel
7%
Motor Symptoms
7%
Autonomous Behavior
7%
Neural Circuits
7%
Receptor Signaling
7%
Neuroscience
Globus pallidus
100%
Parkinson's Disease
66%
Basal Ganglia
53%
Synapse
26%
Receptor
26%
Striatum
24%
Motor Control
22%
Behavior (Neuroscience)
19%
Medium Spiny Neuron
19%
Substantia nigra
19%
Parvalbumin
18%
Calcium Channel
15%
Subthalamic Nucleus
14%
Optogenetics
14%
Excitability
13%
In Vivo
13%
Dopamine Receptor D2
12%
Huntington's Disease
11%
Brain Slice
11%
Sodium Channel
10%
Substantia Nigra Pars Compacta
10%
Gamma-Aminobutyric Acid
10%
HCN Channel
10%
HCN1
10%
Stereotypic Movement Disorder
10%
Glutamate Receptor
9%
Midbrain
8%
Gene Expression
7%
Dopaminergic
7%
HCN2
7%
Typical Antipsychotic
7%
GABA Receptor
7%
Axon
7%
Dopaminergic Neuron
6%
Cyclic Nucleotide
6%
Action Potential
6%
Oxidopamine
6%
Dopamine Receptor D1
6%
Presynaptic Inhibition
6%
Parkinsonism
6%
Glutamic Acid
6%
Excitatory Postsynaptic Potential
6%
Interneuron
6%
Bacterial Artificial Chromosome
6%
Kinase
6%
Ion Channel
6%
Potassium Channel
5%
Receptor Modulation
5%
Cholinergic
5%
Haloperidol
5%