Keyphrases
Metabolism
100%
Epigenetics
100%
Histone Deacetylase 1 (HDAC1)
100%
Sirtuin 6 (SIRT6)
100%
Ribosylation
21%
Catalytic Activity
14%
Physiological Relevance
14%
Deacetylation
14%
Deacylation
14%
Glycolysis
7%
Inflammation
7%
Self-regulation
7%
Cardiac Hypertrophy
7%
Muscle Disease
7%
Oxidative Stress
7%
Age-related Illnesses
7%
Tumor Suppressor
7%
PARP Inhibitor (PARPi)
7%
Tumorigenesis
7%
Protein Substrate
7%
DNA Repair
7%
Deregulation
7%
DNA Double-strand Breaks
7%
Sirtuins
7%
Histone H3
7%
Genome Stability
7%
Lysine
7%
Adipocyte
7%
Lipid Homeostasis
7%
Oxidative DNA Damage
7%
Oxidative Stress Damage
7%
Catalytic Function
7%
Resistance to Oxidative Stress
7%
Multiple Cell Types
7%
Oxidative Aging
7%
Liver Dysfunction
7%
Sir2
7%
Target Network
7%
NAD-dependent
7%
Critical Enzymes
7%
TNF-α Secretion
7%
Acetylated Histone H3
7%
Pleotropic Effects
7%
Glucose-lipid Metabolism
7%
Biochemistry, Genetics and Molecular Biology
Metabolic Pathway
100%
Epigenetics
100%
Epigenomics
100%
Histone Deacetylase
100%
SIRT6
100%
Oxidative Stress
14%
Deacylation
14%
Deacetylation
14%
Histone H3
14%
Enzymatic Activity
14%
Enzyme
7%
Secretion (Process)
7%
Lifespan
7%
DNA Repair
7%
Genome Instability
7%
DNA Damage
7%
Carcinogenesis
7%
PARP1
7%
Tumor Suppressor Protein
7%
Lipid Metabolism
7%
Tumor Necrosis Factor
7%
Adipocyte
7%
Lipid Homeostasis
7%
Catalysis
7%
Autoregulation
7%
Myc
7%
Sir2
7%
Sirtuin
7%
Lysine
7%
Double-Strand DNA Break
7%