Keyphrases
Ca2+
100%
Lymnaea
100%
Muscle Cells
100%
Ventricular muscle
100%
Voltage-dependent Activation
100%
Low-voltage-activated
100%
Voltage Dependence
27%
Nifedipine
27%
Pacemaking
18%
Excitation-contraction Coupling
18%
Permeant
18%
Co2+
18%
Ba2+
18%
Invertebrates
9%
La3+
9%
Action Potential Generation
9%
Spontaneous Potential
9%
Micromolar Concentration
9%
Muscle Contraction
9%
Family Type
9%
Voltage Gating
9%
Voltage Clamp Technique
9%
Electrode Voltage
9%
Voltage Sensitivity
9%
Ni2+
9%
Ni2+ Ions
9%
Ventricular Cell
9%
Activation Threshold
9%
Voltage Step
9%
Mammalian Heart
9%
Single Electrode
9%
La3+ Ions
9%
T-type
9%
Heart muscle
9%
L-type Ca2+ Current
9%
Channel Antagonist
9%
Tetraethylammonium
9%
Dihydropyridine
9%
Neuroscience
Nifedipine
100%
Action Potential
66%
Excitation Contraction Coupling
66%
Tetraethylammonium
33%
Voltage Clamp
33%
Dihydropyridine
33%
Calcium Channel
33%
Biochemistry, Genetics and Molecular Biology
Electric Potential
100%
Lymnaea
100%
Nifedipine
27%
Excitation Contraction Coupling
18%
Action Potential
18%
Low Drug Dose
9%
Muscle Contraction
9%
Voltage Clamp
9%
Calcium Channel
9%
Dihydropyridine
9%