INIS
rodents
100%
kidneys
100%
histones
100%
apoptosis
100%
lethals
100%
proteins
70%
hydroxamic acids
50%
boron chlorides
40%
animals
30%
rats
20%
hemorrhage
20%
comparative evaluations
10%
losses
10%
receptors
10%
phosphorylation
10%
substrates
10%
insulin
10%
blood
10%
residues
10%
lysine
10%
acetylation
10%
lactic acid
10%
Pharmacology, Toxicology and Pharmaceutical Science
Histone Deacetylase Inhibitor
100%
Hemorrhagic Shock
100%
Apoptosis
100%
Sodium Valproate
87%
Vorinostat
62%
Survival
50%
Bleeding
37%
Protein Bcl 2
37%
Animal
37%
Antiapoptotic
25%
Protein BAD
25%
Protein
12%
Biological Product
12%
Lactic Acid
12%
Lysine
12%
Wistar Kyoto Rat
12%
Protein Kinase B
12%
Histone H3
12%
Shock
12%
Histone
12%
Rat
12%
Insulin Receptor Substrate
12%
Biochemistry, Genetics and Molecular Biology
Apoptosis
100%
Rodent
100%
Histone Deacetylase
100%
Protein
87%
Bcl-2
50%
Survival
50%
Histone
25%
Animal
25%
Phosphorylation
12%
Biological Activity
12%
Lysine
12%
Acetylation
12%
Mean Arterial Pressure
12%
Insulin Receptor
12%
Wistar Kyoto Rat
12%
Rat
12%
Animal Models
12%
Neuroscience
Apoptosis
100%
Histone Deacetylase Inhibitor
100%
Valproic Acid
87%
Hydroxamic Acid
62%
Protein Bcl 2
37%
Protein BAD
25%
Lactic Acid
12%
Phosphorylation
12%
Insulin Receptor
12%
Lysine
12%
Acetylation
12%
Histone
12%
Protein Kinase B
12%
Histone H3
12%
Bcl-2
12%
Protein
12%
Protein Kinase B Beta
12%