Keyphrases
Eicosanoids
100%
Arachidonate
100%
Phospholipase A2 (PLA2)
100%
Calcium-independent
100%
Divalent Cations
100%
Mitochondrial Calcium
100%
Arachidonoyl
40%
Ca2+
30%
Lysophosphatidylcholine
30%
Transgenic
20%
Mitochondria
20%
Acyl-CoA
20%
Incubation
20%
Calcium Ion
20%
Hydrolysis
10%
Loss Function
10%
Mass Spectrometry Analysis
10%
Mg2+
10%
Genetic Model
10%
Myocardium
10%
Fatty Acid Release
10%
Fold Increase
10%
Phosphatidylcholine
10%
Arachidonic Acid
10%
Genetic Ablation
10%
Palmitoyl-CoA
10%
Signal Functions
10%
Gain-of-function
10%
Calcium-independent Phospholipase A2
10%
Mitochondrial Signaling
10%
Mitochondrial Bioenergetics
10%
Calcium-activated
10%
Ca2+ Dependence
10%
Arachidonic Acid Release
10%
IC50
10%
Mechanism-based Inhibitor
10%
Tetrahydropyran
10%
Cardiac Mitochondria
10%
Chemical Mechanism
10%
Phospholipase Activity
10%
Long-chain acyl-CoA
10%
Pyrrolidine
10%
Bioenergetic Metabolism
10%
Mammalian Mitochondria
10%
Thioether
10%
Cytosolic PLA2
10%
Mitochondrial Phospholipids
10%
PNPLA8
10%
Biologically Active Metabolites
10%
Biochemistry, Genetics and Molecular Biology
Eicosanoid
100%
Phospholipase A
100%
Arachidonic Acid
100%
Phospholipase A2
83%
Mitochondrion
66%
Acyl-CoA
50%
Lysophosphatidylcholine
50%
Wild Type
33%
Transgenics
33%
Metabolite
33%
Calcium Ion
33%
Homogenate
33%
Enzymatic Hydrolysis
16%
Genetic Model
16%
Enantiomer
16%
Genetic Ablation
16%
Mass Spectrometry
16%
Phospholipase
16%
IC50
16%
Phosphorylcholine
16%
Bioenergetics
16%
Thioether
16%
Phospholipid
16%
Pharmacology, Toxicology and Pharmaceutical Science
Arachidonic Acid
100%
Divalent Cation
100%
Icosanoid
100%
Phospholipase A
100%
Calcium Ion
83%
Phospholipase A2
66%
Lysophosphatidylcholine
50%
Acyl-CoA
50%
Fatty Acid
16%
Phospholipid
16%
Calcium Independent Phospholipase A2
16%
Thioether
16%
Carbon 14
16%
Phosphorylcholine
16%
IC50
16%
Active Metabolite
16%
Magnesium Ion
16%
Phospholipase
16%
Pyrrolidine Derivative
16%