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High voltage-activated Ca
2+
channel currents in isolectin B
4
-positive and -negative small dorsal root ganglion neurons of rats
Zi Zhen Wu
, Hui Lin Pan
Research output
:
Contribution to journal
›
Article
›
peer-review
28
Scopus citations
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Dive into the research topics of 'High voltage-activated Ca
2+
channel currents in isolectin B
4
-positive and -negative small dorsal root ganglion neurons of rats'. Together they form a unique fingerprint.
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Keyphrases
Ca2+
100%
Dorsal Root Ganglion Neurons
100%
Channel Current
100%
Isolectin
100%
Voltage-dependent Activation
100%
Ca2+ Channels
30%
Small-sized
15%
Inhibitory Effect
7%
Neurotransmitter Release
7%
Differential Expression
7%
Nociceptive Neurons
7%
Patch-clamp Recording
7%
Primary Sensory Neurons
7%
Calcium Channel
7%
Nimodipine
7%
High Density
7%
Voltage Gating
7%
Multiple Classes
7%
Conotoxin
7%
Nociceptive Transmission
7%
Fluorescent Dye
7%
Voltage-gated Ca2+ Channels
7%
Peak Current Density
7%
Agatoxin
7%
Barium Current
7%
Neurotransmitter Regulation
7%
Neuroscience
Dorsal Root Ganglion
100%
Neurotransmitter Release
16%
Calcium Channel
16%
Sensory Neuron
16%
Patch Clamp Technique
16%
Fluorescent Dye
16%
Conotoxin
16%
Nimodipine
16%
Biochemistry, Genetics and Molecular Biology
Nimodipine
20%