Keyphrases
Stimulatory Effect
100%
Electrophysiology
100%
Ca2+
100%
Local Control
100%
Ventricular Myocytes
100%
β-adrenergic Stimulation
100%
Adrenergic Stimulation
100%
Receptor Isoforms
50%
Calcium Transient
50%
Phosphorylation
33%
Single-cell Electrophysiology
33%
CaMKII
33%
Whole Cell
33%
β-adrenergic Receptor
33%
Signaling Domain
33%
Local Signaling
33%
Epicardial
16%
Molecular Pathways
16%
Action Control
16%
Relative Contribution
16%
Multiple Pathways
16%
Pathological Conditions
16%
Canine
16%
Rate Dependence
16%
Myocytes
16%
Electrophysiological Effects
16%
Cell Response
16%
Quantitative Contributions
16%
Phosphodiesterase
16%
Multi-target
16%
Cell Effects
16%
Action Potential
16%
Compartmental Model
16%
Restricted Diffusion
16%
Population-based Approach
16%
Delayed Afterdepolarization
16%
Adenylyl Cyclase
16%
Ca2+ Cycling
16%
Cell Calcium
16%
Calmodulin Kinase
16%
Signaling Environment
16%
Potential Transient
16%
Transient Property
16%
AR Signaling
16%
B2 Receptor
16%
CaMKII Signaling
16%
Compartmentation
16%
Localised Signalling
16%
INIS
control
100%
stimulation
100%
transients
100%
electrophysiology
100%
adrenergics
100%
substrates
57%
receptors
42%
calcium
42%
phosphorylation
28%
levels
14%
diffusion
14%
simulation
14%
populations
14%
inhibition
14%
range
14%
kinases
14%
environment
14%
phosphodiesterases
14%
accumulation
14%
canines
14%
cyclases
14%
calmodulin
14%
Biochemistry, Genetics and Molecular Biology
Adrenergic Stimulation
100%
Beta Adrenergic Stimulation
100%
Electrophysiology
100%
Whole Cell
66%
Isoform
50%
Eicosanoid Receptor
33%
Cyclic Adenosine Monophosphate
33%
Phosphotransferase
16%
Kinase
16%
Signal Transduction
16%
Action Potential
16%
Facilitated Diffusion
16%
Calmodulin
16%
Phosphodiesterase
16%
Beta-2 Adrenergic Receptor
16%
Adenylate Cyclase
16%
Afterdepolarization
16%