Keyphrases
Myocytes
100%
Verapamil
100%
K Channels
100%
Large Conductance
100%
BK Channel
36%
Binding Site
18%
Closed State
18%
Flickering
18%
Voltage Dependence
9%
State Dependence
9%
Micromolar Concentration
9%
Single Channel
9%
Open State
9%
State-dependent Block
9%
Langmuir Equation
9%
Mean Residence Time
9%
Non-conductive Material
9%
Sidedness
9%
Kinetic Analysis
9%
Voltage Drop
9%
High Affinity
9%
Transmembrane Voltage
9%
Beta-blockers
9%
Channel Activity
9%
Methoxy Derivatives
9%
Channel Protein
9%
Permeation Pathway
9%
Human Aortic Smooth muscle Cells (HASMCs)
9%
Group Analysis
9%
Neuroscience
Myocyte
100%
Potassium Channel
100%
Verapamil
100%
BK Channel
36%
Binding Site
18%
Pharmacology, Toxicology and Pharmaceutical Science
Verapamil
100%
Potassium Channel
100%
D 890
50%
Large Conductance Calcium Activated Potassium Channel
40%
Binding Site
20%
Gallopamil
20%
Verapamil Derivative
10%