Keyphrases
Action Potential Prolongation
100%
Amino Acids
33%
Attenuation
100%
C-terminus
33%
Co-expression
33%
Dominant Negative
100%
Early Afterdepolarization
33%
Electrophysiological Recordings
33%
Epitope
33%
Experimental Strategies
33%
FLAG Peptide
33%
HEK293 Cells
33%
Induced Current
33%
Ionic Current
33%
Kv2.1
100%
Mammalian Heart
33%
Mouse Ventricular Myocytes
33%
Myosin Heavy Chain (MyHC)
33%
N-terminus
33%
Non-transgenic
33%
Pore-forming Subunit
33%
QT Prolongation
33%
Sensitive Characteristics
33%
Slow Component
100%
Slow Inactivation
33%
Specific Expression
66%
Telemetric Recording
33%
Tetraethylammonium
66%
Transgenic Mice
66%
Transmembrane Domain
33%
Trigger Effect
100%
Truncated Protein
33%
Ventricular Myocytes
33%
Ventricular Repolarization
33%
Voltage-gated K+ Channels
33%
Biochemistry, Genetics and Molecular Biology
Action Potential
100%
Afterdepolarization
50%
Amino Acids
50%
C-Terminus
50%
Electrophysiological Procedures
50%
Heavy Meromyosin
50%
HEK 293 Cells
50%
Inactivation Time Constant
50%
Ion Current
50%
Mouse
100%
N-Terminus
50%
Promoter Region
50%
Repolarization
50%
Transgene
50%
Transgenic Mouse
100%
Voltage-Gated Potassium Channel
50%
Wild Type
100%
Immunology and Microbiology
Action Potential
100%
Amino Terminal Sequence
50%
Carboxy Terminal Sequence
50%
Electrophysiological Procedures
50%
Epitope
50%
Heavy Chain
50%
Inactivation Time Constant
50%
Ion Current
50%
Mouse
100%
Muscle Cell
100%
Promoter Region
50%
Repolarization
50%
Transgene
50%
Transgenic Mouse
100%
Voltage-Gated Potassium Channel
50%
Wild Type
100%
Medicine and Dentistry
Action Potential
100%
Amino Acid
50%
Amino Terminal Sequence
50%
Carboxy Terminal Sequence
50%
Epitope
50%
Heavy Meromyosin
50%
HEK 293 Cells
50%
Ion Current
50%
Promoter Region
50%
QT Prolongation
50%
Repolarization
50%
Tetrylammonium
100%
Transgene
50%
Transgenic Mouse
100%
Voltage-Gated Potassium Channel
50%
Neuroscience
Action Potential
100%
Amino Acid
50%
Amino Terminal Sequence
50%
C-Terminus
50%
Epitope
50%
HEK 293 Cells
50%
In Vivo
100%
Myocyte
100%
Myosin Heavy Chain
50%
Promoter Region
50%
Tetraethylammonium
100%
Transgene
50%
Voltage-Gated Potassium Channel
50%
Pharmacology, Toxicology and Pharmaceutical Science
Amino Acid
50%
Epitope
50%
Mouse
100%
Myosin Heavy Chain
50%
Potassium Channel
50%
QT Prolongation
50%
Tetrylammonium
100%
Transgenic Mouse
100%