Keyphrases
Palmitoylation
100%
Protein Palmitoylation
78%
Post-translational Modification
61%
Cysteine
52%
Caveolae
47%
Disease Treatment
44%
Grease the Wheels
39%
Protein-protein Interaction
39%
Exchange Method
39%
Acyl
39%
Therapeutic Targeting
39%
Na+-K+ Pump
39%
Sodium Pump
39%
Maleimide
39%
Caveolin-3
39%
Myocytes
39%
Caveolin
29%
Cysteine Residues
29%
Cell Surface
26%
Cavin
22%
Phospholemman
19%
Cardiac Cells
16%
Fatty Acids
16%
Caveolin-1 (Cav-1)
14%
Hands-on Time
13%
Cycloaddition
13%
Chemical Scavenging
13%
Addition Reaction
13%
Signal Aggregation
13%
Sample Loss
13%
Free Cysteine
13%
2,3-dimethylbutadiene
13%
Protein Aggregation
13%
Palmitoyl-CoA
13%
Overall Time
13%
Cardiac muscle
13%
N-ethylmaleimide
13%
In Vivo Labeling
13%
Chemical Cleavage
13%
Sulfhydryl
13%
Specific Detectivity
13%
Acylation
13%
Diels-Alder
13%
DHHC5
13%
Cav1.3
11%
Palmitate
10%
Signaling Molecules
9%
Protein Acyltransferase
9%
Biased Receptor
9%
Acyl Protein Thioesterases
9%
ZDHHC11
9%
Pharmaceutical Targets
9%
Endocytosis
9%
Transport Receptor
9%
Cell Growth
9%
Acid Groups
9%
Thioether Linkage
9%
Biological Processes
9%
Vesicle Trafficking
9%
Transferase Enzymes
9%
Cardiac Contractility
9%
Receptor Signaling
9%
Synaptic Plasticity
9%
Membrane Transport
9%
Therapeutic Agents
9%
Glutathiolation
8%
Membrane Lipids
6%
Contractile State
6%
Primary Active Transporters
6%
Unanswered Questions
6%
Ventricular Myocytes
6%
Cardiac Hypertrophy
6%
Causal Role
6%
Intracellular Na
6%
Specificity Protein 1
6%
Accessory Subunit
6%
Metabolic State
6%
Heart Failure
6%
Functional Impact
6%
Regulatory Process
6%
Transmembrane
6%
Multiple Cell Types
6%
Ion Gradient
6%
Myocardium
6%
Sodium Potassium ATPase
6%
Diastolic Dysfunction
6%
Conjugation
6%
Catalytic Subunit
6%
Cellular Control
6%
Arrhythmia
6%
Palmitoyl Acyltransferase
6%
Beta-adrenoceptor Signaling
5%
Osmotic Stress
5%
Lipid Rafts
5%
Molecular Organization
5%
Cardiac Disease
5%
Coat Complexes
5%
Internal Surface
5%
Endothelial Nitric Oxide Synthase (eNOS)
5%
Overexpression
5%
Noncardiac
5%
Molecular Structure
5%
Ischemia-reperfusion Injury
5%
Lability
5%
Braking
5%
Biochemistry, Genetics and Molecular Biology
Palmitoylation
86%
Cysteine
56%
Posttranslational Modification
48%
Caveolae
47%
Acylation
39%
Cardiac Muscle Cell
39%
Protein S
39%
Protein Interaction
39%
Caveolin 3
39%
Lubrication
39%
Caveolin
29%
Enzyme
17%
Caveolin 1
14%
Isoform
13%
Gene Linkage
9%
Acyltransferase
9%
Heart Muscle Contractility
9%
Endocytosis
9%
Membrane Transport
9%
Enzymatic Hydrolysis
9%
Cell Growth
9%
Nerve Cell Plasticity
9%
Biological Phenomena and Functions Concerning the Entire Organism
9%
Thioester
9%
N-Acetyltransferase
9%
Cardiac Dysrhythmia
7%
Sodium-Potassium ATPase
7%
Enzyme Active Site
7%
Palmitic Acid
7%
Metabolic Pathway
7%
Membrane Lipid
7%
Palmitoyl Acyltransferase
7%
Adrenergic Receptor
5%
Osmotic Stress
5%
Reperfusion
5%
Signaling Protein
5%
Lipid Raft
5%
Nitric Oxide Synthase
5%
Medicine and Dentistry
Caveolae
39%
Cardiac Muscle Cell
39%
Adenosine Triphosphatase (Potassium Sodium)
39%
Palmitoylation
39%
Cell Surface
19%
Caveolin
16%
Muscle Cell
16%
Cardiac Muscle
9%
Adrenergic Receptor
5%
Combination Therapy
5%
Lipid Raft
5%
Caveolin 1
5%
Reperfusion Injury
5%
Heart Disease
5%
Endothelial Nitric Oxide Synthase
5%
Osmotic Stress
5%
Signaling Protein
5%