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An evolutionarily conserved mode of modulation of Shaw-like K
+
channels
Diego Cotella
, Berenice Hernandez-Enriquez
, Zhibing Duan
, Xilong Wu
, Valeswara Rao Gazula
, Maile R. Brown
, Leonard K. Kaczmarek
, Federico Sesti
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:
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›
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Keyphrases
K+ Channels
100%
Caenorhabditis Elegans
100%
Evolutionarily Conserved
100%
Phosphorylation
75%
Kv3.1b
75%
Acid Phosphatase
50%
Phosphatase
50%
Nervous System
50%
Prostatic Acid Phosphatase
50%
Dephosphorylation
25%
Molecular Mechanism
25%
Subventricular Zone
25%
Brainstem
25%
Mammalian Brain
25%
Amplitude Analysis
25%
Current Amplitude
25%
FASEB
25%
Electrophysiological Analysis
25%
Biochemical Experiment
25%
Family Play
25%
Mammalian Genetics
25%
Behavioral Defects
25%
Voltage-gated K+ Channels
25%
Neuroscience
Potassium Channel
100%
Caenorhabditis Elegans
100%
Acid Phosphatase
50%
Nervous System
50%
Acid Phosphatase Prostate Isoenzyme
50%
Phosphatase
50%
In Vitro
25%
In Vivo
25%
Dephosphorylation
25%
Brainstem
25%
Voltage-Gated Potassium Channel
25%
Biochemistry, Genetics and Molecular Biology
Potassium Channel
100%
Caenorhabditis Elegans
100%
Acid Phosphatase
50%
Prostatic Acid Phosphatase
50%
Phosphatase
50%
Dephosphorylation
25%
Genetics
25%
Voltage-Gated Potassium Channel
25%
Current Amplitude
25%