Keyphrases
DNA Damage
100%
Age-associated
100%
Growth Factors
100%
Neurogenesis
100%
Insulin-like
100%
Aged Rats
100%
Combined Exercise
100%
Aging
66%
Hippocampus
66%
OGG1
50%
Sirtuin 1 (SIRT1)
50%
Acetylation
33%
8-Oxo-7,8-dihydroguanine
33%
Spatial Memory
33%
Sirtuin 3 (SIRT3)
33%
Lysine Residue
16%
Causal Factors
16%
Age-related
16%
Exercise Training
16%
Neuropathology
16%
DNA Damage Repair
16%
Exercise-induced
16%
Therapeutic Target
16%
Ku70
16%
Young Animals
16%
Maximal Oxygen Uptake
16%
VO2max
16%
Lysine Acetylation
16%
Lysine Deacetylases
16%
Sirtuins
16%
Acetylated Lysine
16%
Neuroscience
Neurogenesis
100%
DNA Damage
100%
Insulin-Like Growth Factor 1
100%
Hippocampus
66%
Acetylation
50%
Lysine
50%
8-Oxoguanine
50%
Sirtuin 1
50%
Spatial Memory
33%
In Vivo
16%
DNA Glycosylase
16%
DNA Repair
16%
Ku (Protein)
16%
Sirtuin
16%
Biochemistry, Genetics and Molecular Biology
DNA Damage
100%
Nervous System Development
100%
Insulin-Like Growth Factor 1
100%
Lysine
50%
Acetylation
50%
Sirtuin 1
50%
Spatial Memory
33%
SIRT3
33%
DNA Repair
16%
DNA Glycosylase
16%
Oxygen Consumption
16%
Exercise
16%
Ku (Protein)
16%
Sirtuin
16%
Immunology and Microbiology
Nervous System Development
100%
DNA Damage
100%
Somatomedin C
100%
Hippocampus
66%
Acetylation
50%
Spatial Memory
33%
DNA Repair
16%
Exercise
16%
Oxygen Consumption
16%
Ku Antigen
16%
Pharmacology, Toxicology and Pharmaceutical Science
Somatomedin C
100%
8 Hydroxyguanine
50%
Lysine
50%
Sirtuin 1
50%
DNA Glycosyltransferase
16%
Ku Antigen
16%
Sirtuin
16%